PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
2780312-6	1989	From the deduced amino acid sequence of HRES-1/1 p25, residues 6-36 show a sequence homology of 32% and 39% to gag region segments of HTLV-I and HTLV-II, while residues 104-139 display a sequence homology of 33% and 28% to the gag regions of human immunodeficiency virus type 2 (HIV-2) and feline sarcoma virus (FSV), respectively.	Glycosaminoglycans	111-114	tubulin polymerization promoting protein	Homo sapiens	49-52
2780312-6	1989	From the deduced amino acid sequence of HRES-1/1 p25, residues 6-36 show a sequence homology of 32% and 39% to gag region segments of HTLV-I and HTLV-II, while residues 104-139 display a sequence homology of 33% and 28% to the gag regions of human immunodeficiency virus type 2 (HIV-2) and feline sarcoma virus (FSV), respectively.	Glycosaminoglycans	227-230	tubulin polymerization promoting protein	Homo sapiens	49-52
2925452-7	1989	p25, an Ii C-terminal fragment, was about 60% reduced by leupeptin or antipain.	leupeptin	57-66	tubulin polymerization promoting protein	Homo sapiens	0-3
2645135-1	1989	The growth-related 25-kDa protein (p25) of Ehrlich ascites tumor (EAT) has been characterized by molecular cloning and sequencing of cDNA clones detected by hybridization with oligonucleotide probes synthesized according to the amino acid sequence of a tryptic peptide of p25.	Oligonucleotides	176-191	tubulin polymerization promoting protein	Homo sapiens	35-38
2645135-1	1989	The growth-related 25-kDa protein (p25) of Ehrlich ascites tumor (EAT) has been characterized by molecular cloning and sequencing of cDNA clones detected by hybridization with oligonucleotide probes synthesized according to the amino acid sequence of a tryptic peptide of p25.	Peptides	261-268	tubulin polymerization promoting protein	Homo sapiens	35-38
2645135-3	1989	High-level expression of p25 in Escherichia coli has been established by oligonucleotide-directed mutagenesis of cDNA and insertion of the mutated cDNA into a T7-promoter expression vector.	Oligonucleotides	73-88	tubulin polymerization promoting protein	Homo sapiens	25-28
2701919-3	1989	In vitro phosphorylation of isolated intestinal brush border membranes has revealed the existence of a 25,000 molecular weight proteolipid (p25) acting as cosubstrate for both cGMP- and cAMP-dependent protein kinases and cross-reacting with antibodies directed against the cytoplasmic tail of the band 3 anion exchanger from erythrocytes.	Cyclic GMP	176-180	tubulin polymerization promoting protein	Homo sapiens	140-143
2701919-3	1989	In vitro phosphorylation of isolated intestinal brush border membranes has revealed the existence of a 25,000 molecular weight proteolipid (p25) acting as cosubstrate for both cGMP- and cAMP-dependent protein kinases and cross-reacting with antibodies directed against the cytoplasmic tail of the band 3 anion exchanger from erythrocytes.	Cyclic AMP	186-190	tubulin polymerization promoting protein	Homo sapiens	140-143
2701919-4	1989	The putative role of p25 in Cl- channel regulation and its relationship to an unidentified GTP-binding protein recently implicated in Cl- channel activation is discussed on the basis of a regulatory model indicating potential sites of the CF defect at a molecular level.	Guanosine Triphosphate	91-94	tubulin polymerization promoting protein	Homo sapiens	21-24
3263930-4	1988	To identify the p25 moiety, it was purified to homogeneity by sequential chromatography on DEAE-Sephacel and reverse-phase, high-pressure liquid chromatography and its amino-terminal amino acid sequence was determined.	deae-sephacel	91-104	tubulin polymerization promoting protein	Homo sapiens	16-19
3190723-2	1988	Two of the three isoforms of the growth-related protein p25 of the Ehrlich ascites tumor have been purified to homogeneity by giant two-dimensional polyacrylamide gel electrophoresis.	polyacrylamide	148-162	tubulin polymerization promoting protein	Homo sapiens	56-59
7107612-6	1982	These studies demonstrate that residues 122-150 of the protein p-25 and glycoprotein gp-30 occupy an exposed region of the HBsAg lipoprotein particle and contain the major attachment site for carbohydrate in the case of gp-30.	Carbohydrates	192-204	tubulin polymerization promoting protein	Homo sapiens	63-67
3282009-2	1988	[35S]Methionine pulse-chase labeling of polyclonally activated B lymphocytes or lymphoblastoid cell lines demonstrated maximal appearance of p25 in Percoll-separated endosomal fractions at 20- to 40-min chase times (studies in progress).	Sulfur-35	1-4	tubulin polymerization promoting protein	Homo sapiens	141-144
3282009-2	1988	[35S]Methionine pulse-chase labeling of polyclonally activated B lymphocytes or lymphoblastoid cell lines demonstrated maximal appearance of p25 in Percoll-separated endosomal fractions at 20- to 40-min chase times (studies in progress).	Methionine	5-15	tubulin polymerization promoting protein	Homo sapiens	141-144
3282009-8	1988	The mAb to Ii immunoprecipitated [35S]methionine-labeled p25 but not [35S]cysteine-labeled p25.	Sulfur-35	34-37	tubulin polymerization promoting protein	Homo sapiens	57-60
3282009-8	1988	The mAb to Ii immunoprecipitated [35S]methionine-labeled p25 but not [35S]cysteine-labeled p25.	Methionine	38-48	tubulin polymerization promoting protein	Homo sapiens	57-60
3856614-10	1985	The expression of Ia auxiliary proteins, p41 and p25, was also enhanced in Jijoye cells by butyrate treatment and was prominent in HCL cells.	Butyrates	91-99	tubulin polymerization promoting protein	Homo sapiens	49-52
3879240-6	1985	The increases of p52, p25.5, and p23 were inhibited by 5 micrograms/ml actinomycin D, whereas the other seven were virtually unaffected by the drug.	Dactinomycin	71-84	tubulin polymerization promoting protein	Homo sapiens	22-25
2981963-10	1985	Gz-p30 and Gz-p15 contained the tryptic peptides of Mo-MuLV p30 and p15, respectively, that were found in P40 and P25.	Peptides	40-48	tubulin polymerization promoting protein	Homo sapiens	114-117
6152662-1	1984	The human Thy-1 homologue (p25) was characterized biochemically for amino acid composition, sequence and carbohydrate content.	Carbohydrates	105-117	tubulin polymerization promoting protein	Homo sapiens	27-30
6152662-4	1984	molecule (p40) is the dimer of p25 and its formation is increased by the presence of sodium dodecyl sulphate (SDS).	Sodium Dodecyl Sulfate	85-108	tubulin polymerization promoting protein	Homo sapiens	31-34
6152662-4	1984	molecule (p40) is the dimer of p25 and its formation is increased by the presence of sodium dodecyl sulphate (SDS).	Sodium Dodecyl Sulfate	110-113	tubulin polymerization promoting protein	Homo sapiens	31-34
7298067-13	1981	By RAST inhibition method, using Df 80d as a solid phase, the allergenic activity of P25 appeared as slightly higher than that of Df 80d, whereas GP8 displayed a very weak inhibitor capacity.	df 80d	33-39	tubulin polymerization promoting protein	Homo sapiens	85-88
6169847-2	1981	Cleavage performed in the presence of 0.15% Nonidet P-40 in water yielded polypeptides of approximately 40,000 (P40) and 25,000 (P25) Mr.	Nonidet P-40	44-56	tubulin polymerization promoting protein	Homo sapiens	129-132
6169847-2	1981	Cleavage performed in the presence of 0.15% Nonidet P-40 in water yielded polypeptides of approximately 40,000 (P40) and 25,000 (P25) Mr.	Water	60-65	tubulin polymerization promoting protein	Homo sapiens	129-132
7240257-3	1981	These studies demonstrated that p-25 and gp-30 have identical protein structure, differing only by the presence of carbohydrate in gp-30.	Carbohydrates	115-127	tubulin polymerization promoting protein	Homo sapiens	32-36
7240257-4	1981	Removal of this carbohydrate by treatment with anhydrous hydrofluoric acid converted gp-30 into p-25.	Carbohydrates	16-28	tubulin polymerization promoting protein	Homo sapiens	96-100
7240257-4	1981	Removal of this carbohydrate by treatment with anhydrous hydrofluoric acid converted gp-30 into p-25.	Hydrofluoric Acid	57-74	tubulin polymerization promoting protein	Homo sapiens	96-100
549586-2	1979	In six normal subjects cerebral somatosensory potentials evoked by median nerve stimulation at the wrist have been recorded in order to assess whether N20 and P25 components can be related to a single generator dipole.	dipole	211-217	tubulin polymerization promoting protein	Homo sapiens	159-162
34022752-5	2021	The median (p25 to p75) time to first BZD on weekdays and weekends/holidays was 20 (6.8 to 48.3) minutes versus 11 (5 to 35) minutes, P = 0.01; adjusted hazard ratio (HR) = 1.20 (95% confidence interval [CI]: 0.95 to 1.55), P = 0.12.	N-BENZOYL-N'-BETA-D-GLUCOPYRANOSYL UREA	38-41	tubulin polymerization promoting protein	Homo sapiens	12-15
32959410-6	2020	RESULTS: Use of a non-IV BZD with high estimated effectiveness, like intranasal midazolam, rather than one with low estimated effectiveness, like rectal diazepam, would result in a median (p25 -p75 ) reduction in hospital admissions from 6 (3.9-8.8) to 1.1 (0.7-1.8) per 100 cases and associated cost reductions of $638 ($289-$1064) per pediatric patient and $1107 ($972-$1281) per adult patient.	N-BENZOYL-N'-BETA-D-GLUCOPYRANOSYL UREA	25-28	tubulin polymerization promoting protein	Homo sapiens	189-192
33718734-4	2021	The photocatalytic performance of the 0.6% PtO-ZnO nanocomposite is 20 and 10 times higher than that of pristine ZnO and commercial P-25, respectively.	pto-zno	43-50	tubulin polymerization promoting protein	Homo sapiens	132-136
33718734-4	2021	The photocatalytic performance of the 0.6% PtO-ZnO nanocomposite is 20 and 10 times higher than that of pristine ZnO and commercial P-25, respectively.	Zinc Oxide	47-50	tubulin polymerization promoting protein	Homo sapiens	132-136
33718734-5	2021	The photodegradation rate of TC over the 0.6% PtO-ZnO nanocomposite is 34 and 12.5 times greater than that of pristine ZnO and commercial P-25, respectively.	Tetracycline	29-31	tubulin polymerization promoting protein	Homo sapiens	138-142
33718734-5	2021	The photodegradation rate of TC over the 0.6% PtO-ZnO nanocomposite is 34 and 12.5 times greater than that of pristine ZnO and commercial P-25, respectively.	pto-zno	46-53	tubulin polymerization promoting protein	Homo sapiens	138-142
33718734-5	2021	The photodegradation rate of TC over the 0.6% PtO-ZnO nanocomposite is 34 and 12.5 times greater than that of pristine ZnO and commercial P-25, respectively.	Zinc Oxide	50-53	tubulin polymerization promoting protein	Homo sapiens	138-142
33617568-4	2021	suPAR plasma levels ranged from 1.3-10.2 [median: 2.9 (p25-p75: 2.3-3.9)] ng/mL.	supar	0-5	tubulin polymerization promoting protein	Homo sapiens	55-58
33463790-4	2020	Upon UV illumination, only single superrepellence-underwater superoleophobicity is maintained on titanium dioxide (TiO2, P25)-based coatings.	titanium dioxide	97-113	tubulin polymerization promoting protein	Homo sapiens	121-124
33547337-4	2021	The photocatalytic decomposition of benzene in water by the present hybrid heated at 1100  C was efficient as that by P25, a benchmark photocatalyst.	Benzene	36-43	tubulin polymerization promoting protein	Homo sapiens	118-121
33547337-4	2021	The photocatalytic decomposition of benzene in water by the present hybrid heated at 1100  C was efficient as that by P25, a benchmark photocatalyst.	Water	47-52	tubulin polymerization promoting protein	Homo sapiens	118-121
33678006-9	2021	The results of ADMA levels are presented as Median (p25, p75).	N,N-dimethylarginine	15-19	tubulin polymerization promoting protein	Homo sapiens	52-55
33403289-4	2020	Mesoporous 1.5% Ag2O-ZnO nanocomposites indicated the highest degradation efficiency of 100% of TC during 120 min of the visible light exposure compared with 5% and 10% for pristine ZnO NPs and commercial P-25, respectively.	mesoporous	0-10	tubulin polymerization promoting protein	Homo sapiens	205-209
33403289-4	2020	Mesoporous 1.5% Ag2O-ZnO nanocomposites indicated the highest degradation efficiency of 100% of TC during 120 min of the visible light exposure compared with 5% and 10% for pristine ZnO NPs and commercial P-25, respectively.	ag2o-zno	16-24	tubulin polymerization promoting protein	Homo sapiens	205-209
33403289-4	2020	Mesoporous 1.5% Ag2O-ZnO nanocomposites indicated the highest degradation efficiency of 100% of TC during 120 min of the visible light exposure compared with 5% and 10% for pristine ZnO NPs and commercial P-25, respectively.	Tetracycline	96-98	tubulin polymerization promoting protein	Homo sapiens	205-209
33403289-4	2020	Mesoporous 1.5% Ag2O-ZnO nanocomposites indicated the highest degradation efficiency of 100% of TC during 120 min of the visible light exposure compared with 5% and 10% for pristine ZnO NPs and commercial P-25, respectively.	Zinc Oxide	21-24	tubulin polymerization promoting protein	Homo sapiens	205-209
33403289-5	2020	The TC degradation rate took place much rapidly over 1.5% Ag2O-ZnO nanocomposites (0.798 mumol L-1 min-1) as compared to either commercial P-25 (0.097 mumol L-1 min-1) or ZnO NPs (0.035 mumol L-1 min-1).	Tetracycline	4-6	tubulin polymerization promoting protein	Homo sapiens	139-143
33403289-6	2020	The mesoporous 1.5% Ag2O-ZnO nanocomposite revealed the highest degradation rate among all synthesized samples, and it was 23 and 8 orders of magnitudes greater than those of pristine ZnO NPs and P-25, respectively.	mesoporous	4-14	tubulin polymerization promoting protein	Homo sapiens	196-200
33403289-6	2020	The mesoporous 1.5% Ag2O-ZnO nanocomposite revealed the highest degradation rate among all synthesized samples, and it was 23 and 8 orders of magnitudes greater than those of pristine ZnO NPs and P-25, respectively.	ag2o-zno	20-28	tubulin polymerization promoting protein	Homo sapiens	196-200
33403289-6	2020	The mesoporous 1.5% Ag2O-ZnO nanocomposite revealed the highest degradation rate among all synthesized samples, and it was 23 and 8 orders of magnitudes greater than those of pristine ZnO NPs and P-25, respectively.	Zinc Oxide	25-28	tubulin polymerization promoting protein	Homo sapiens	196-200
32959410-6	2020	RESULTS: Use of a non-IV BZD with high estimated effectiveness, like intranasal midazolam, rather than one with low estimated effectiveness, like rectal diazepam, would result in a median (p25 -p75 ) reduction in hospital admissions from 6 (3.9-8.8) to 1.1 (0.7-1.8) per 100 cases and associated cost reductions of $638 ($289-$1064) per pediatric patient and $1107 ($972-$1281) per adult patient.	Midazolam	80-89	tubulin polymerization promoting protein	Homo sapiens	189-192
32959410-6	2020	RESULTS: Use of a non-IV BZD with high estimated effectiveness, like intranasal midazolam, rather than one with low estimated effectiveness, like rectal diazepam, would result in a median (p25 -p75 ) reduction in hospital admissions from 6 (3.9-8.8) to 1.1 (0.7-1.8) per 100 cases and associated cost reductions of $638 ($289-$1064) per pediatric patient and $1107 ($972-$1281) per adult patient.	Diazepam	153-161	tubulin polymerization promoting protein	Homo sapiens	189-192
32120304-5	2020	After controlling for multiple comparisons and relevant covariates (e.g., demographics, brain volume, cell composition, 3 PCs), 850 K derived TPPP methylation values, in interaction with a dimensional measure of children"s trauma experiences, predicted left and right CC body volumes and genu, body and splenium FA (p < .007, all comparisons).	splenium	303-311	tubulin polymerization promoting protein	Homo sapiens	142-146
32143160-2	2020	In this study, carboxymethyl beta-cyclodextrin (CM-beta-CD), as an alternative to gold nanoparticle, was used to modified titanium dioxide (CM-beta-CD-P25) to accelerate photoelectron transmission and enhance the organic contaminants removal from water.	carboxymethyl-beta-cyclodextrin	15-46	tubulin polymerization promoting protein	Homo sapiens	151-154
32143160-2	2020	In this study, carboxymethyl beta-cyclodextrin (CM-beta-CD), as an alternative to gold nanoparticle, was used to modified titanium dioxide (CM-beta-CD-P25) to accelerate photoelectron transmission and enhance the organic contaminants removal from water.	titanium dioxide	122-138	tubulin polymerization promoting protein	Homo sapiens	151-154
32143160-2	2020	In this study, carboxymethyl beta-cyclodextrin (CM-beta-CD), as an alternative to gold nanoparticle, was used to modified titanium dioxide (CM-beta-CD-P25) to accelerate photoelectron transmission and enhance the organic contaminants removal from water.	Water	247-252	tubulin polymerization promoting protein	Homo sapiens	151-154
32143160-5	2020	Consequently, 91.6 % of BPA, 71.9 % of phenol and 97.1 % of SA could be removed by CM-beta-CD-P25(2:1) under 1 h UV light irradiation.	bisphenol A	24-27	tubulin polymerization promoting protein	Homo sapiens	94-97
32143160-5	2020	Consequently, 91.6 % of BPA, 71.9 % of phenol and 97.1 % of SA could be removed by CM-beta-CD-P25(2:1) under 1 h UV light irradiation.	Phenol	39-45	tubulin polymerization promoting protein	Homo sapiens	94-97
32143160-5	2020	Consequently, 91.6 % of BPA, 71.9 % of phenol and 97.1 % of SA could be removed by CM-beta-CD-P25(2:1) under 1 h UV light irradiation.	Sulfanilamide	60-62	tubulin polymerization promoting protein	Homo sapiens	94-97
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	bisphenol A	36-39	tubulin polymerization promoting protein	Homo sapiens	69-72
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	bisphenol A	36-39	tubulin polymerization promoting protein	Homo sapiens	183-186
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	bisphenol A	36-39	tubulin polymerization promoting protein	Homo sapiens	183-186
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	Phenol	41-47	tubulin polymerization promoting protein	Homo sapiens	69-72
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	Sulfanilamide	52-54	tubulin polymerization promoting protein	Homo sapiens	69-72
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	Sulfanilamide	52-54	tubulin polymerization promoting protein	Homo sapiens	183-186
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	Sulfanilamide	52-54	tubulin polymerization promoting protein	Homo sapiens	183-186
32143160-6	2020	The photooxidation rate constant of BPA, phenol and SA by CM-beta-CD-P25(2:1) were 0.039 min-1, 0.021 min-1 and 0.062 min-1, respectively, which are much higher than that of pristine P25 and Au-P25.	Gold	191-193	tubulin polymerization promoting protein	Homo sapiens	69-72
32143160-9	2020	CM-beta-CD-P25 hybrid nanoparticles completely surpasses Au-P25 in organic contaminants removal, and shows great potential to replace noble metal as mediator.	Gold	57-59	tubulin polymerization promoting protein	Homo sapiens	11-14
32143160-9	2020	CM-beta-CD-P25 hybrid nanoparticles completely surpasses Au-P25 in organic contaminants removal, and shows great potential to replace noble metal as mediator.	Gold	57-59	tubulin polymerization promoting protein	Homo sapiens	60-63
32143160-9	2020	CM-beta-CD-P25 hybrid nanoparticles completely surpasses Au-P25 in organic contaminants removal, and shows great potential to replace noble metal as mediator.	Metals	140-145	tubulin polymerization promoting protein	Homo sapiens	11-14
31376131-2	2020	Salicylic acid was selected as a model emerging pollutant and powders of nitrogen-doped titanium dioxide (N-TiO2) and TiO2 were prepared by the sol-gel process, using TiO2 P-25 Degussa as benchmark.	Nitrogen	73-81	tubulin polymerization promoting protein	Homo sapiens	172-176
31376131-2	2020	Salicylic acid was selected as a model emerging pollutant and powders of nitrogen-doped titanium dioxide (N-TiO2) and TiO2 were prepared by the sol-gel process, using TiO2 P-25 Degussa as benchmark.	n-tio2	106-112	tubulin polymerization promoting protein	Homo sapiens	172-176
32044626-7	2020	The presence of P25 under visible light irradiation could significantly accelerate SDZ degradation at small amount of iron precursors, mainly via promoting the Fe2+/Fe3+ cycling by the photoelectrons.	Sulfadiazine	83-86	tubulin polymerization promoting protein	Homo sapiens	16-19
32044626-7	2020	The presence of P25 under visible light irradiation could significantly accelerate SDZ degradation at small amount of iron precursors, mainly via promoting the Fe2+/Fe3+ cycling by the photoelectrons.	Iron	118-122	tubulin polymerization promoting protein	Homo sapiens	16-19
32044626-7	2020	The presence of P25 under visible light irradiation could significantly accelerate SDZ degradation at small amount of iron precursors, mainly via promoting the Fe2+/Fe3+ cycling by the photoelectrons.	ammonium ferrous sulfate	160-164	tubulin polymerization promoting protein	Homo sapiens	16-19
32044626-7	2020	The presence of P25 under visible light irradiation could significantly accelerate SDZ degradation at small amount of iron precursors, mainly via promoting the Fe2+/Fe3+ cycling by the photoelectrons.	ferric sulfate	165-169	tubulin polymerization promoting protein	Homo sapiens	16-19
32044626-8	2020	Moreover, SDZ degradation in sono-Fenton process was significantly inhibited at pH > 7, but the inhibition was very weak in P25-assisted sono-Fenton process.	Sulfadiazine	10-13	tubulin polymerization promoting protein	Homo sapiens	124-127
32388950-10	2020	The M (P(25), P(75)) of concentration of total urinary PAHs metabolites was 5.72 (3.91,8.72) mug/mmol Cr.	Polycyclic Aromatic Hydrocarbons	55-59	tubulin polymerization promoting protein	Homo sapiens	7-12
32226866-10	2020	Additionally, TiO2 and Ag-doped TiO2 nanofibers exhibited higher photocatalytic performance for glucose conversion than commercial TiO2 (P25) and synthesized TiO2 nanoparticles.	titanium dioxide	14-18	tubulin polymerization promoting protein	Homo sapiens	137-140
32226866-10	2020	Additionally, TiO2 and Ag-doped TiO2 nanofibers exhibited higher photocatalytic performance for glucose conversion than commercial TiO2 (P25) and synthesized TiO2 nanoparticles.	titanium dioxide	32-36	tubulin polymerization promoting protein	Homo sapiens	137-140
32226866-10	2020	Additionally, TiO2 and Ag-doped TiO2 nanofibers exhibited higher photocatalytic performance for glucose conversion than commercial TiO2 (P25) and synthesized TiO2 nanoparticles.	titanium dioxide	32-36	tubulin polymerization promoting protein	Homo sapiens	137-140
32226866-10	2020	Additionally, TiO2 and Ag-doped TiO2 nanofibers exhibited higher photocatalytic performance for glucose conversion than commercial TiO2 (P25) and synthesized TiO2 nanoparticles.	titanium dioxide	32-36	tubulin polymerization promoting protein	Homo sapiens	137-140
31854712-5	2019	With rearranged structural defects, photo-generated electrons were prone to transfer from the surface of P25 to Fe-POM nanoparticles.	Iron	112-118	tubulin polymerization promoting protein	Homo sapiens	105-108
31752211-0	2019	One-Step Hydrothermal Synthesis of P25 @ Few Layered MoS2 Nanosheets toward Enhanced Bi-catalytic Activities: Photocatalysis and Electrocatalysis.	molybdenum disulfide	53-57	tubulin polymerization promoting protein	Homo sapiens	35-38
31752211-0	2019	One-Step Hydrothermal Synthesis of P25 @ Few Layered MoS2 Nanosheets toward Enhanced Bi-catalytic Activities: Photocatalysis and Electrocatalysis.	Bismuth	85-87	tubulin polymerization promoting protein	Homo sapiens	35-38
31752211-1	2019	P25 loaded few layered molybdenum disulfide (MoS2) nanosheets (P25@MoS2) are successfully synthesized through a facile one-step hydrothermal process.	molybdenum disulfide	23-43	tubulin polymerization promoting protein	Homo sapiens	0-3
31752211-1	2019	P25 loaded few layered molybdenum disulfide (MoS2) nanosheets (P25@MoS2) are successfully synthesized through a facile one-step hydrothermal process.	molybdenum disulfide	23-43	tubulin polymerization promoting protein	Homo sapiens	63-66
31752211-1	2019	P25 loaded few layered molybdenum disulfide (MoS2) nanosheets (P25@MoS2) are successfully synthesized through a facile one-step hydrothermal process.	molybdenum disulfide	45-49	tubulin polymerization promoting protein	Homo sapiens	0-3
31752211-1	2019	P25 loaded few layered molybdenum disulfide (MoS2) nanosheets (P25@MoS2) are successfully synthesized through a facile one-step hydrothermal process.	molybdenum disulfide	45-49	tubulin polymerization promoting protein	Homo sapiens	63-66
31752211-1	2019	P25 loaded few layered molybdenum disulfide (MoS2) nanosheets (P25@MoS2) are successfully synthesized through a facile one-step hydrothermal process.	molybdenum disulfide	67-71	tubulin polymerization promoting protein	Homo sapiens	0-3
31752211-1	2019	P25 loaded few layered molybdenum disulfide (MoS2) nanosheets (P25@MoS2) are successfully synthesized through a facile one-step hydrothermal process.	molybdenum disulfide	67-71	tubulin polymerization promoting protein	Homo sapiens	63-66
31752211-4	2019	The results indicate that P25@MoS2 possesses excellent activities in both photocatalysis and electrocatalysis.	molybdenum disulfide	30-34	tubulin polymerization promoting protein	Homo sapiens	26-29
31752211-5	2019	The presence of MoS2 broadens the light absorption range of P25 and improves the separation and transformation efficiency of photogenerated carriers, thus improving its photocatalytic performance.	molybdenum disulfide	16-20	tubulin polymerization promoting protein	Homo sapiens	60-63
31752211-6	2019	The existence of P25 inhibits the aggregation of MoS2 to form more dispersed MoS2 nanosheets with only few layers increasing its active sites.	molybdenum disulfide	49-53	tubulin polymerization promoting protein	Homo sapiens	17-20
31752211-6	2019	The existence of P25 inhibits the aggregation of MoS2 to form more dispersed MoS2 nanosheets with only few layers increasing its active sites.	molybdenum disulfide	77-81	tubulin polymerization promoting protein	Homo sapiens	17-20
31752211-8	2019	The excellent multifunction makes the as-prepared P25@MoS2 a promising material in the fields of environment and energy.	molybdenum disulfide	54-58	tubulin polymerization promoting protein	Homo sapiens	50-53
31154190-7	2019	However, the relative content ratio of dicarbonyl compounds to monocarbonyl ones on reduced P25 is ca.	dicarbonyl compounds	39-59	tubulin polymerization promoting protein	Homo sapiens	92-95
31154190-8	2019	4.1 times higher than that on P25, suggesting reduction treatment significantly accelerated the transformation of allyl alcohol or monocarbonyl compounds to dicarbonyl ones.	allyl alcohol	114-127	tubulin polymerization promoting protein	Homo sapiens	30-33
31154190-8	2019	4.1 times higher than that on P25, suggesting reduction treatment significantly accelerated the transformation of allyl alcohol or monocarbonyl compounds to dicarbonyl ones.	ones	168-172	tubulin polymerization promoting protein	Homo sapiens	30-33
24687884-3	2019	In solar water splitting, the hollow spheres exhibit remarkably enhanced photocatalytic performance that is 1.4 times of P25.	Water	9-14	tubulin polymerization promoting protein	Homo sapiens	121-124
31677816-5	2020	According to the linear optical properties, the polarizability of PbTiO3 is calculated to 1.01 x 10-23 cm3 (2.68 times that of P25 (TiO2)), inducing the photo-excited charge separation by PbTiO3.	Titanium	66-72	tubulin polymerization promoting protein	Homo sapiens	127-130
31677816-5	2020	According to the linear optical properties, the polarizability of PbTiO3 is calculated to 1.01 x 10-23 cm3 (2.68 times that of P25 (TiO2)), inducing the photo-excited charge separation by PbTiO3.	Titanium	132-136	tubulin polymerization promoting protein	Homo sapiens	127-130
31677816-5	2020	According to the linear optical properties, the polarizability of PbTiO3 is calculated to 1.01 x 10-23 cm3 (2.68 times that of P25 (TiO2)), inducing the photo-excited charge separation by PbTiO3.	Titanium	188-194	tubulin polymerization promoting protein	Homo sapiens	127-130
31325696-0	2019	New insights into the synergistic effect of active radicals and adsorptive ability on the photodegradation of gaseous acetaldehyde over reduced graphene Oxide/P25 composite.	Acetaldehyde	118-130	tubulin polymerization promoting protein	Homo sapiens	159-162
31325696-0	2019	New insights into the synergistic effect of active radicals and adsorptive ability on the photodegradation of gaseous acetaldehyde over reduced graphene Oxide/P25 composite.	graphene oxide	144-158	tubulin polymerization promoting protein	Homo sapiens	159-162
31238212-0	2019	Promoting Fe3+/Fe2+ cycling under visible light by synergistic interactions between P25 and small amount of Fenton reagents.	ferric sulfate	10-14	tubulin polymerization promoting protein	Homo sapiens	84-87
31238212-0	2019	Promoting Fe3+/Fe2+ cycling under visible light by synergistic interactions between P25 and small amount of Fenton reagents.	ammonium ferrous sulfate	15-19	tubulin polymerization promoting protein	Homo sapiens	84-87
31238212-2	2019	Interactions between P25 and Fe3+/H2O2 were emphasized.	Hydrogen Peroxide	34-38	tubulin polymerization promoting protein	Homo sapiens	21-24
31238212-3	2019	Results show that adsorption of Fe(III) on P25 produced redshift of light absorption, and interactions between P25 and H2O2 promoted photoelectron generation, effectively introducing visible light into ph-F.	ferric sulfate	32-39	tubulin polymerization promoting protein	Homo sapiens	43-46
31238212-3	2019	Results show that adsorption of Fe(III) on P25 produced redshift of light absorption, and interactions between P25 and H2O2 promoted photoelectron generation, effectively introducing visible light into ph-F.	Hydrogen Peroxide	119-123	tubulin polymerization promoting protein	Homo sapiens	111-114
31238212-4	2019	The visible-light-driven ph-F demonstrated adequate performance at high Fe3+/H2O2 dosage, while P25 addition showed significant acceleration of BPA degradation with saving amount of Fe3+/H2O2.	bisphenol A	144-147	tubulin polymerization promoting protein	Homo sapiens	96-99
31238212-4	2019	The visible-light-driven ph-F demonstrated adequate performance at high Fe3+/H2O2 dosage, while P25 addition showed significant acceleration of BPA degradation with saving amount of Fe3+/H2O2.	ferric sulfate	182-186	tubulin polymerization promoting protein	Homo sapiens	96-99
31238212-4	2019	The visible-light-driven ph-F demonstrated adequate performance at high Fe3+/H2O2 dosage, while P25 addition showed significant acceleration of BPA degradation with saving amount of Fe3+/H2O2.	Hydrogen Peroxide	187-191	tubulin polymerization promoting protein	Homo sapiens	96-99
31238212-6	2019	Additionally, H2O2 was utilized more efficiently in P25-ph-F than that in ph-F by diminishing the radical scavenging role of H2O2 at lower [Fe(III)].	Hydrogen Peroxide	14-18	tubulin polymerization promoting protein	Homo sapiens	52-55
31238212-6	2019	Additionally, H2O2 was utilized more efficiently in P25-ph-F than that in ph-F by diminishing the radical scavenging role of H2O2 at lower [Fe(III)].	Hydrogen Peroxide	125-129	tubulin polymerization promoting protein	Homo sapiens	52-55
31238212-8	2019	Compared to ph-F, the P25-ph-F process also demonstrated stronger potentials in degrading BPA at high concentrations and better mineralization capability with reduced Fe3+/H2O2 reagents.	bisphenol A	90-93	tubulin polymerization promoting protein	Homo sapiens	22-25
31238212-8	2019	Compared to ph-F, the P25-ph-F process also demonstrated stronger potentials in degrading BPA at high concentrations and better mineralization capability with reduced Fe3+/H2O2 reagents.	ferric sulfate	167-171	tubulin polymerization promoting protein	Homo sapiens	22-25
31238212-8	2019	Compared to ph-F, the P25-ph-F process also demonstrated stronger potentials in degrading BPA at high concentrations and better mineralization capability with reduced Fe3+/H2O2 reagents.	Hydrogen Peroxide	172-176	tubulin polymerization promoting protein	Homo sapiens	22-25
31154190-3	2019	In this study, the photo-induced transformation of a typical enol, allyl alcohol, to carbonyl compounds on TiO2 (P25) and aluminum reduced TiO2 (P25, rutile and anatase TiO2) were investigated.	enol	61-65	tubulin polymerization promoting protein	Homo sapiens	113-116
31154190-3	2019	In this study, the photo-induced transformation of a typical enol, allyl alcohol, to carbonyl compounds on TiO2 (P25) and aluminum reduced TiO2 (P25, rutile and anatase TiO2) were investigated.	enol	61-65	tubulin polymerization promoting protein	Homo sapiens	145-148
31154190-3	2019	In this study, the photo-induced transformation of a typical enol, allyl alcohol, to carbonyl compounds on TiO2 (P25) and aluminum reduced TiO2 (P25, rutile and anatase TiO2) were investigated.	allyl alcohol	67-80	tubulin polymerization promoting protein	Homo sapiens	113-116
31154190-3	2019	In this study, the photo-induced transformation of a typical enol, allyl alcohol, to carbonyl compounds on TiO2 (P25) and aluminum reduced TiO2 (P25, rutile and anatase TiO2) were investigated.	allyl alcohol	67-80	tubulin polymerization promoting protein	Homo sapiens	145-148
31154190-3	2019	In this study, the photo-induced transformation of a typical enol, allyl alcohol, to carbonyl compounds on TiO2 (P25) and aluminum reduced TiO2 (P25, rutile and anatase TiO2) were investigated.	titanium dioxide	107-111	tubulin polymerization promoting protein	Homo sapiens	113-116
31154190-3	2019	In this study, the photo-induced transformation of a typical enol, allyl alcohol, to carbonyl compounds on TiO2 (P25) and aluminum reduced TiO2 (P25, rutile and anatase TiO2) were investigated.	aluminum reduced tio2	122-143	tubulin polymerization promoting protein	Homo sapiens	145-148
31154190-3	2019	In this study, the photo-induced transformation of a typical enol, allyl alcohol, to carbonyl compounds on TiO2 (P25) and aluminum reduced TiO2 (P25, rutile and anatase TiO2) were investigated.	titanium dioxide	139-143	tubulin polymerization promoting protein	Homo sapiens	145-148
31554910-0	2019	Alcohol solvothermal reduction for commercial P25 to harvest weak visible light and fabrication of the resulting floating photocatalytic spheres.	Ethanol	0-7	tubulin polymerization promoting protein	Homo sapiens	46-49
31554910-1	2019	In this study, to fabricate stable floating photocatalytic spheres, facile alcohol solvothermal reduction was first employed to modify commercial TiO2 (P25) photocatalysts to harvest visible light and improve their performances for photodegrading phenol in seawater exciting by visible light.	Ethanol	75-82	tubulin polymerization promoting protein	Homo sapiens	152-155
31554910-1	2019	In this study, to fabricate stable floating photocatalytic spheres, facile alcohol solvothermal reduction was first employed to modify commercial TiO2 (P25) photocatalysts to harvest visible light and improve their performances for photodegrading phenol in seawater exciting by visible light.	Titanium	146-150	tubulin polymerization promoting protein	Homo sapiens	152-155
31554910-1	2019	In this study, to fabricate stable floating photocatalytic spheres, facile alcohol solvothermal reduction was first employed to modify commercial TiO2 (P25) photocatalysts to harvest visible light and improve their performances for photodegrading phenol in seawater exciting by visible light.	Phenols	247-253	tubulin polymerization promoting protein	Homo sapiens	152-155
31554910-3	2019	The structural characterizations showed that reduction of P25 introduced disorder-crystalline shell-core structures with present Ti3+ in reduced P25 photocatalysts.	Titanium	129-133	tubulin polymerization promoting protein	Homo sapiens	58-61
31554910-3	2019	The structural characterizations showed that reduction of P25 introduced disorder-crystalline shell-core structures with present Ti3+ in reduced P25 photocatalysts.	Titanium	129-133	tubulin polymerization promoting protein	Homo sapiens	145-148
31554910-5	2019	As reduction time or temperature of alcohol solvothermal process rose, more Ti3+ and shell-core structures were introduced into reduced P25, resulting in higher performances towards phenol degradation in seawater.	Ethanol	36-43	tubulin polymerization promoting protein	Homo sapiens	136-139
31554910-5	2019	As reduction time or temperature of alcohol solvothermal process rose, more Ti3+ and shell-core structures were introduced into reduced P25, resulting in higher performances towards phenol degradation in seawater.	Titanium	76-80	tubulin polymerization promoting protein	Homo sapiens	136-139
31554910-5	2019	As reduction time or temperature of alcohol solvothermal process rose, more Ti3+ and shell-core structures were introduced into reduced P25, resulting in higher performances towards phenol degradation in seawater.	Phenols	182-188	tubulin polymerization promoting protein	Homo sapiens	136-139
31554910-7	2019	Thanks to good light transmission of the hollow spheres and the high performance of the reduced P25, the photocatalytic performances of spheres loaded with reduced P25 could effectively degrade phenol in seawater even at low concentrations.	Phenols	194-200	tubulin polymerization promoting protein	Homo sapiens	96-99
31554910-7	2019	Thanks to good light transmission of the hollow spheres and the high performance of the reduced P25, the photocatalytic performances of spheres loaded with reduced P25 could effectively degrade phenol in seawater even at low concentrations.	Phenols	194-200	tubulin polymerization promoting protein	Homo sapiens	164-167
31115816-5	2019	The sequence of elemental carbon emission for the alcohol blends is (from lowest to highest): IB20 &lt; NB20 &lt; P25 &lt; E13, which is in line with that of peak of particle size distribution and the total particle number emission.	Carbon	26-32	tubulin polymerization promoting protein	Homo sapiens	114-117
31115816-5	2019	The sequence of elemental carbon emission for the alcohol blends is (from lowest to highest): IB20 &lt; NB20 &lt; P25 &lt; E13, which is in line with that of peak of particle size distribution and the total particle number emission.	Alcohols	50-57	tubulin polymerization promoting protein	Homo sapiens	114-117
31148150-7	2019	In the light of these issues, we established a new innovative strategy for the validation of a specific drug target based upon the identification of contact surfaces of the pathological SYN-TPPP/p25 complex that may lead to the development of peptidomimetic foldamers suitable for pharmaceutical intervention.	tppp	190-194	tubulin polymerization promoting protein	Homo sapiens	195-198
31055670-3	2019	In this context, the main target of the work was the evaluation of degradation of the phenolic solution by ozonation titanium dioxide (TiO2/P25), supported on zeolite spheres.	titanium dioxide	117-133	tubulin polymerization promoting protein	Homo sapiens	135-143
31292484-0	2019	Preparation of the heterojunction catalyst N-doping carbon quantum dots/P25 and its visible light photocatalytic activity.	Carbon	52-58	tubulin polymerization promoting protein	Homo sapiens	72-75
31292484-1	2019	N-doping carbon quantum dots were successfully loaded on P25 nanoparticles (denoted as N-CDs/P25) by facile hydrothermal process, and their morphology and chemical structure were systematically studied.	Carbon	9-15	tubulin polymerization promoting protein	Homo sapiens	57-60
31292484-1	2019	N-doping carbon quantum dots were successfully loaded on P25 nanoparticles (denoted as N-CDs/P25) by facile hydrothermal process, and their morphology and chemical structure were systematically studied.	Carbon	9-15	tubulin polymerization promoting protein	Homo sapiens	93-96
31292484-1	2019	N-doping carbon quantum dots were successfully loaded on P25 nanoparticles (denoted as N-CDs/P25) by facile hydrothermal process, and their morphology and chemical structure were systematically studied.	n-cds	87-92	tubulin polymerization promoting protein	Homo sapiens	57-60
31292484-2	2019	The carrier of N-CDs can significantly broaden the photoresponse range of the P25 to the visible region, accelerate charge transportation and separation.	n-cds	15-20	tubulin polymerization promoting protein	Homo sapiens	78-81
31292484-3	2019	Application of the N-CDs/P25 material for the photocatalytic decomposition of Rhodamine B (RhB) gave improved activity relative to P25.	n-cds	19-24	tubulin polymerization promoting protein	Homo sapiens	25-28
31292484-3	2019	Application of the N-CDs/P25 material for the photocatalytic decomposition of Rhodamine B (RhB) gave improved activity relative to P25.	n-cds	19-24	tubulin polymerization promoting protein	Homo sapiens	131-134
31292484-3	2019	Application of the N-CDs/P25 material for the photocatalytic decomposition of Rhodamine B (RhB) gave improved activity relative to P25.	rhodamine B	78-89	tubulin polymerization promoting protein	Homo sapiens	25-28
31292484-3	2019	Application of the N-CDs/P25 material for the photocatalytic decomposition of Rhodamine B (RhB) gave improved activity relative to P25.	rhodamine B	78-89	tubulin polymerization promoting protein	Homo sapiens	131-134
31292484-3	2019	Application of the N-CDs/P25 material for the photocatalytic decomposition of Rhodamine B (RhB) gave improved activity relative to P25.	rhodamine B	91-94	tubulin polymerization promoting protein	Homo sapiens	25-28
31292484-3	2019	Application of the N-CDs/P25 material for the photocatalytic decomposition of Rhodamine B (RhB) gave improved activity relative to P25.	rhodamine B	91-94	tubulin polymerization promoting protein	Homo sapiens	131-134
31292484-4	2019	The best degradation activity obtained at 6mL N-CDs/P25 under visible light irradiation, which shows a 13.06 fold photocatalytic activity over P25.	n-cds	46-51	tubulin polymerization promoting protein	Homo sapiens	52-55
31292484-4	2019	The best degradation activity obtained at 6mL N-CDs/P25 under visible light irradiation, which shows a 13.06 fold photocatalytic activity over P25.	n-cds	46-51	tubulin polymerization promoting protein	Homo sapiens	143-146
31177749-10	2019	The median (P(25), P(75)) serum vitamin D was 16.0 (13.5, 18.5) and 17.4 (14.3, 20.5) ng/ml, respectively.	Vitamin D	32-41	tubulin polymerization promoting protein	Homo sapiens	12-17
31177750-10	2019	The magnesium intake median (P(25), P(75)) of two groups was 336.36 (257.31, 440.65) and 339.50 (264.51, 443.78) mg/d.	Magnesium	4-13	tubulin polymerization promoting protein	Homo sapiens	29-34
31172148-1	2019	In this study we assess the general applicability of the widely used P25-TiO2 in gas-phase photocatalytic CO2 reduction based on experimentally determined reactivity descriptors from classical heterogeneous catalysis (productivity) and photochemistry (apparent quantum yield/AQY).	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	106-109	tubulin polymerization promoting protein	Homo sapiens	69-72
31172148-2	2019	A comparison of the results with reports on the use of P25 for thermodynamically more feasible reactions and our own previous studies on P25-TiO2 as photocatalyst imply that the catalytic functionality of this material, rather than its properties as photoabsorber, limits its applicability in the heterogeneous photocatalytic CO2 reduction in the gas phase.	titanium dioxide	141-145	tubulin polymerization promoting protein	Homo sapiens	137-140
31208090-0	2019	Optimization of Cyclohexanol and Cyclohexanone Yield in the Photocatalytic Oxofunctionalization of Cyclohexane over Degussa P-25 under Visible Light.	Cyclohexanols	16-28	tubulin polymerization promoting protein	Homo sapiens	124-128
31208090-0	2019	Optimization of Cyclohexanol and Cyclohexanone Yield in the Photocatalytic Oxofunctionalization of Cyclohexane over Degussa P-25 under Visible Light.	cyclohexanone	33-46	tubulin polymerization promoting protein	Homo sapiens	124-128
31208090-0	2019	Optimization of Cyclohexanol and Cyclohexanone Yield in the Photocatalytic Oxofunctionalization of Cyclohexane over Degussa P-25 under Visible Light.	Cyclohexane	99-110	tubulin polymerization promoting protein	Homo sapiens	124-128
31208090-5	2019	In this work, the yields of photocatalytic cyclohexane conversion using Degussa P-25 under visible light were optimized.	Cyclohexane	43-54	tubulin polymerization promoting protein	Homo sapiens	80-84
31055670-3	2019	In this context, the main target of the work was the evaluation of degradation of the phenolic solution by ozonation titanium dioxide (TiO2/P25), supported on zeolite spheres.	Zeolites	159-166	tubulin polymerization promoting protein	Homo sapiens	135-143
31053881-2	2019	It is making use of a composite prepared from gold nanoparticles and TiO2 (type P25) and placed on a fluorine-doped tin oxide (FTO) electrode.	titanium dioxide	69-73	tubulin polymerization promoting protein	Homo sapiens	80-83
31053881-9	2019	Graphical abstract A new gold/P25 composite-based photoelectrochemical sensing scheme for dopamine is described.	Dopamine	90-98	tubulin polymerization promoting protein	Homo sapiens	30-33
29920974-4	2018	A significant elevation in the photocatalytic hydrogen evolution rate is achieved with a maximal value of 3.02 mmol g-1  h-1 during the first 3 h, which is almost 76-fold higher than that of P25 and comparable to that of Pt-P25.	Hydrogen	46-54	tubulin polymerization promoting protein	Homo sapiens	191-194
30549127-4	2019	We found that carbamazepine decreased the P25 and P180 TEP components, and brivaracetam the N100 amplitude in the nonstimulated hemisphere, while tiagabine had no effect.	Carbamazepine	14-27	tubulin polymerization promoting protein	Homo sapiens	42-45
30367965-8	2019	The MCS differentiated CDC+ (Md, P25 and P75) results: MCS-T 390 (245-469) and MCS-B 282 (180-350).	mcs	4-7	tubulin polymerization promoting protein	Homo sapiens	33-36
30699943-1	2019	In this report, the photocatalytic activity of P25 has been explored and the influence of thermal treatment under various atmospheres (air, vacuum and hydrogen) were discussed.	Hydrogen	151-159	tubulin polymerization promoting protein	Homo sapiens	47-50
30250009-6	2018	The P25 (p &lt; 0.001) SEP peak significantly decreased following capsaicin application for all groups.	Capsaicin	66-75	tubulin polymerization promoting protein	Homo sapiens	4-7
30839734-1	2018	Titanium dioxide (Degussa P25) was supported onto two different aluminosilicate zeolites (ZSM-5) and anchored on three silica gels using two separate preparation methods to study the effect of the catalyst components and the preparation method on the photoactivity of composite catalysts.	titanium dioxide	0-16	tubulin polymerization promoting protein	Homo sapiens	26-29
30839734-3	2018	An easily separable photocatalyst with higher photoactivity than commercial Degussa P25 was developed using Degussa P25, ZSM-5 (SiO2/Al2O3 = 280) and silica gel (particle size 0.2-0.5 mm and pore size 40 A).	zsm-5	121-126	tubulin polymerization promoting protein	Homo sapiens	84-87
30839734-3	2018	An easily separable photocatalyst with higher photoactivity than commercial Degussa P25 was developed using Degussa P25, ZSM-5 (SiO2/Al2O3 = 280) and silica gel (particle size 0.2-0.5 mm and pore size 40 A).	Silica Gel	150-160	tubulin polymerization promoting protein	Homo sapiens	84-87
29753209-1	2018	In this work, representative semiconductors CdS, V2O5, WO3 and P25 (Degussa TiO2 consisting of 80 wt% anatase and 20 wt% rutile) were chosen as the photocatalysts, and the common phenol along with its derivatives (p-nitrophenol, p-chlorophenol and hydroquinone) were designated as the probe pollutants.	titanium dioxide	76-80	tubulin polymerization promoting protein	Homo sapiens	63-66
29926980-2	2018	Secondary mesostructured defects in the hierarchical TiO2 microspheres produce oxygen vacancies, which not only significantly enhance photocatalytic activity in the degradation of methylene blue (1.7 times that with P25) and acetone (2.9 times that with P25), but are also beneficial for lithium storage.	titanium dioxide	53-57	tubulin polymerization promoting protein	Homo sapiens	216-219
29926980-2	2018	Secondary mesostructured defects in the hierarchical TiO2 microspheres produce oxygen vacancies, which not only significantly enhance photocatalytic activity in the degradation of methylene blue (1.7 times that with P25) and acetone (2.9 times that with P25), but are also beneficial for lithium storage.	titanium dioxide	53-57	tubulin polymerization promoting protein	Homo sapiens	254-257
29926980-2	2018	Secondary mesostructured defects in the hierarchical TiO2 microspheres produce oxygen vacancies, which not only significantly enhance photocatalytic activity in the degradation of methylene blue (1.7 times that with P25) and acetone (2.9 times that with P25), but are also beneficial for lithium storage.	Oxygen	79-85	tubulin polymerization promoting protein	Homo sapiens	216-219
29926980-2	2018	Secondary mesostructured defects in the hierarchical TiO2 microspheres produce oxygen vacancies, which not only significantly enhance photocatalytic activity in the degradation of methylene blue (1.7 times that with P25) and acetone (2.9 times that with P25), but are also beneficial for lithium storage.	Oxygen	79-85	tubulin polymerization promoting protein	Homo sapiens	254-257
29926980-2	2018	Secondary mesostructured defects in the hierarchical TiO2 microspheres produce oxygen vacancies, which not only significantly enhance photocatalytic activity in the degradation of methylene blue (1.7 times that with P25) and acetone (2.9 times that with P25), but are also beneficial for lithium storage.	Methylene Blue	180-194	tubulin polymerization promoting protein	Homo sapiens	216-219
29926980-2	2018	Secondary mesostructured defects in the hierarchical TiO2 microspheres produce oxygen vacancies, which not only significantly enhance photocatalytic activity in the degradation of methylene blue (1.7 times that with P25) and acetone (2.9 times that with P25), but are also beneficial for lithium storage.	Methylene Blue	180-194	tubulin polymerization promoting protein	Homo sapiens	254-257
30739031-2	2019	The visible-light-induced LDH/CN/RGO ternary heterojunctions displayed significantly enhanced photocatalytic performance towards the degradation of aqueous Congo red (CR, dye) and tetracycline (TC, antibiotic) contaminants, which is far superior to that observed for pristine CN (base material), LDH, P25 (reference), and binary CN/RGO and LDH/CN heterojunctions.	Congo Red	156-165	tubulin polymerization promoting protein	Homo sapiens	301-304
30739031-2	2019	The visible-light-induced LDH/CN/RGO ternary heterojunctions displayed significantly enhanced photocatalytic performance towards the degradation of aqueous Congo red (CR, dye) and tetracycline (TC, antibiotic) contaminants, which is far superior to that observed for pristine CN (base material), LDH, P25 (reference), and binary CN/RGO and LDH/CN heterojunctions.	Congo Red	167-169	tubulin polymerization promoting protein	Homo sapiens	301-304
30739031-2	2019	The visible-light-induced LDH/CN/RGO ternary heterojunctions displayed significantly enhanced photocatalytic performance towards the degradation of aqueous Congo red (CR, dye) and tetracycline (TC, antibiotic) contaminants, which is far superior to that observed for pristine CN (base material), LDH, P25 (reference), and binary CN/RGO and LDH/CN heterojunctions.	Tetracycline	180-192	tubulin polymerization promoting protein	Homo sapiens	301-304
30739031-2	2019	The visible-light-induced LDH/CN/RGO ternary heterojunctions displayed significantly enhanced photocatalytic performance towards the degradation of aqueous Congo red (CR, dye) and tetracycline (TC, antibiotic) contaminants, which is far superior to that observed for pristine CN (base material), LDH, P25 (reference), and binary CN/RGO and LDH/CN heterojunctions.	Tetracycline	194-196	tubulin polymerization promoting protein	Homo sapiens	301-304
30701675-8	2019	In the presence of H2 O2 , the kinetic degradation parameters of the composite reached 0.0634 min-1 , which was about 19.8-times higher than that of P25.	Hydrogen Peroxide	19-24	tubulin polymerization promoting protein	Homo sapiens	149-152
31459388-4	2019	The synthesized rods were implemented as photoanode material for DSSCs which exhibited a photoelectric conversion efficiency (PCE) of 4.28% with a high open-circuit voltage (V OC) of 0.84 V which is highly superior to DSSC with Degussa P25 (PCE = 3.95%) TiO2 nanoparticles.	photoanode	41-51	tubulin polymerization promoting protein	Homo sapiens	236-239
30635791-4	2019	As a result, the TiO2 NS-based CdS/CdSe QDSSC has exhibited a power conversion efficiency of 4.42%, which corresponds to a 54% improvement in comparison with the P-25-based reference cell.	titanium dioxide	17-21	tubulin polymerization promoting protein	Homo sapiens	162-166
30635791-4	2019	As a result, the TiO2 NS-based CdS/CdSe QDSSC has exhibited a power conversion efficiency of 4.42%, which corresponds to a 54% improvement in comparison with the P-25-based reference cell.	ns	22-24	tubulin polymerization promoting protein	Homo sapiens	162-166
30635791-4	2019	As a result, the TiO2 NS-based CdS/CdSe QDSSC has exhibited a power conversion efficiency of 4.42%, which corresponds to a 54% improvement in comparison with the P-25-based reference cell.	Cadmium	31-34	tubulin polymerization promoting protein	Homo sapiens	162-166
30635791-4	2019	As a result, the TiO2 NS-based CdS/CdSe QDSSC has exhibited a power conversion efficiency of 4.42%, which corresponds to a 54% improvement in comparison with the P-25-based reference cell.	cdse	35-39	tubulin polymerization promoting protein	Homo sapiens	162-166
30525435-0	2019	CdTe Quantum Dot-Functionalized P25 Titania Composite with Enhanced Photocatalytic NO2 Storage Selectivity under UV and Vis Irradiation.	cadmium telluride	0-4	tubulin polymerization promoting protein	Homo sapiens	32-35
30525435-0	2019	CdTe Quantum Dot-Functionalized P25 Titania Composite with Enhanced Photocatalytic NO2 Storage Selectivity under UV and Vis Irradiation.	Nitrogen Dioxide	83-86	tubulin polymerization promoting protein	Homo sapiens	32-35
30525435-1	2019	Composite systems of P25 (titania) functionalized with thioglycolic acid (TGA)-capped CdTe colloidal quantum dots (QDs) were synthesized, structurally characterized, and photocatalytically tested in the photocatalytic NO x oxidation and storage during NO(g) + O2(g) reaction.	2-mercaptoacetate	74-77	tubulin polymerization promoting protein	Homo sapiens	21-24
30525435-1	2019	Composite systems of P25 (titania) functionalized with thioglycolic acid (TGA)-capped CdTe colloidal quantum dots (QDs) were synthesized, structurally characterized, and photocatalytically tested in the photocatalytic NO x oxidation and storage during NO(g) + O2(g) reaction.	cadmium telluride	86-90	tubulin polymerization promoting protein	Homo sapiens	21-24
30525435-3	2019	Therefore, P25 could efficiently photooxidize NO(g) + O2(g) into NO2; however, it failed to store photogenerated NO2 and released toxic NO2(g) to the atmosphere.	Oxygen	54-56	tubulin polymerization promoting protein	Homo sapiens	11-14
30525435-3	2019	Therefore, P25 could efficiently photooxidize NO(g) + O2(g) into NO2; however, it failed to store photogenerated NO2 and released toxic NO2(g) to the atmosphere.	Nitrogen Dioxide	65-68	tubulin polymerization promoting protein	Homo sapiens	11-14
30525435-4	2019	CdTe QD-functionalized P25 revealed a major boost in photocatalytic performance with respect to pure P25, where NO conversion reached 42% under UV-A and 43% under vis illumination, while the respective selectivity climbed up to 92 and 97%, rendering the CdTe/P25 composite system an efficient broad-band photocatalyst, which can harvest both UV-A and vis light efficiently and display a strong NO x abatement effect.	cadmium telluride	0-4	tubulin polymerization promoting protein	Homo sapiens	23-26
30525435-4	2019	CdTe QD-functionalized P25 revealed a major boost in photocatalytic performance with respect to pure P25, where NO conversion reached 42% under UV-A and 43% under vis illumination, while the respective selectivity climbed up to 92 and 97%, rendering the CdTe/P25 composite system an efficient broad-band photocatalyst, which can harvest both UV-A and vis light efficiently and display a strong NO x abatement effect.	cadmium telluride	0-4	tubulin polymerization promoting protein	Homo sapiens	101-104
30525435-4	2019	CdTe QD-functionalized P25 revealed a major boost in photocatalytic performance with respect to pure P25, where NO conversion reached 42% under UV-A and 43% under vis illumination, while the respective selectivity climbed up to 92 and 97%, rendering the CdTe/P25 composite system an efficient broad-band photocatalyst, which can harvest both UV-A and vis light efficiently and display a strong NO x abatement effect.	cadmium telluride	0-4	tubulin polymerization promoting protein	Homo sapiens	101-104
30525435-4	2019	CdTe QD-functionalized P25 revealed a major boost in photocatalytic performance with respect to pure P25, where NO conversion reached 42% under UV-A and 43% under vis illumination, while the respective selectivity climbed up to 92 and 97%, rendering the CdTe/P25 composite system an efficient broad-band photocatalyst, which can harvest both UV-A and vis light efficiently and display a strong NO x abatement effect.	cadmium telluride	254-258	tubulin polymerization promoting protein	Homo sapiens	23-26
30525435-4	2019	CdTe QD-functionalized P25 revealed a major boost in photocatalytic performance with respect to pure P25, where NO conversion reached 42% under UV-A and 43% under vis illumination, while the respective selectivity climbed up to 92 and 97%, rendering the CdTe/P25 composite system an efficient broad-band photocatalyst, which can harvest both UV-A and vis light efficiently and display a strong NO x abatement effect.	cadmium telluride	254-258	tubulin polymerization promoting protein	Homo sapiens	101-104
30525435-4	2019	CdTe QD-functionalized P25 revealed a major boost in photocatalytic performance with respect to pure P25, where NO conversion reached 42% under UV-A and 43% under vis illumination, while the respective selectivity climbed up to 92 and 97%, rendering the CdTe/P25 composite system an efficient broad-band photocatalyst, which can harvest both UV-A and vis light efficiently and display a strong NO x abatement effect.	cadmium telluride	254-258	tubulin polymerization promoting protein	Homo sapiens	101-104
30525435-6	2019	Reuse experiments showed that photocatalytic performance of the CdTe/P25 system can be preserved to a reasonable extent with only a moderate decrease in the photocatalytic performance.	cadmium telluride	64-68	tubulin polymerization promoting protein	Homo sapiens	69-72
30525435-7	2019	Although some decrease in the photocatalytic activity was observed after aging, CdTe/P25 could still outperform P25 benchmark photocatalyst.	cadmium telluride	80-84	tubulin polymerization promoting protein	Homo sapiens	85-88
30525435-7	2019	Although some decrease in the photocatalytic activity was observed after aging, CdTe/P25 could still outperform P25 benchmark photocatalyst.	cadmium telluride	80-84	tubulin polymerization promoting protein	Homo sapiens	112-115
30525435-8	2019	Increasing CdTe QDs loading from the currently optimized minuscule concentrations could be a useful strategy to increase further the catalytic lifetime/stability of the CdTe/P25 system with only a minor penalty in catalytic activity.	cadmium telluride	11-15	tubulin polymerization promoting protein	Homo sapiens	174-177
30525435-8	2019	Increasing CdTe QDs loading from the currently optimized minuscule concentrations could be a useful strategy to increase further the catalytic lifetime/stability of the CdTe/P25 system with only a minor penalty in catalytic activity.	cadmium telluride	169-173	tubulin polymerization promoting protein	Homo sapiens	174-177
30540433-0	2019	Refluxed Esterification of Fullerene-Conjugated P25 TiO2 Promotes Free Radical Scavenging Capacity and Facilitates Antiaging Potentials in Human Cells.	Fullerenes	27-36	tubulin polymerization promoting protein	Homo sapiens	48-51
30540433-0	2019	Refluxed Esterification of Fullerene-Conjugated P25 TiO2 Promotes Free Radical Scavenging Capacity and Facilitates Antiaging Potentials in Human Cells.	titanium dioxide	52-56	tubulin polymerization promoting protein	Homo sapiens	48-51
30540433-4	2019	In this study, we employed water-soluble carboxylic acid fullerenes (C60-COOH and C70-COOH) as the free radical scavenger and modify onto the surface of titanium dioxide by refluxed esterification (P25/C60-COOH or C70-COOH) technique.	Water	27-32	tubulin polymerization promoting protein	Homo sapiens	198-201
30540433-4	2019	In this study, we employed water-soluble carboxylic acid fullerenes (C60-COOH and C70-COOH) as the free radical scavenger and modify onto the surface of titanium dioxide by refluxed esterification (P25/C60-COOH or C70-COOH) technique.	carboxylic acid fullerenes	41-67	tubulin polymerization promoting protein	Homo sapiens	198-201
30540433-4	2019	In this study, we employed water-soluble carboxylic acid fullerenes (C60-COOH and C70-COOH) as the free radical scavenger and modify onto the surface of titanium dioxide by refluxed esterification (P25/C60-COOH or C70-COOH) technique.	titanium dioxide	153-169	tubulin polymerization promoting protein	Homo sapiens	198-201
30540433-8	2019	Our data indicate that both P25/C60-COOH and P25/C70-COOH could protect human cells against UV exposure.	Carbonic Acid	36-40	tubulin polymerization promoting protein	Homo sapiens	28-31
30540433-9	2019	P25/C70-COOH exhibits great anti-inflammation capacity, whereas P25/C60-COOH exhibits great anti-oxidative stress and anti-DNA damage capacity.	Carbonic Acid	72-76	tubulin polymerization promoting protein	Homo sapiens	64-67
30540433-10	2019	Our results suggest that most of our P25/fullerene composite materials have the ability to reduce free radicals and exhibit high biomedical potential in anti-inflammation, anti-oxidant, and anti-aging applications.	Fullerenes	41-50	tubulin polymerization promoting protein	Homo sapiens	37-40
30583575-1	2018	The commercial P25 titania has been modified with transition metallic species (Cr, Co, Ni, and Cu), added by impregnation with aqueous solutions of the corresponding nitrates.	Chromium	79-81	tubulin polymerization promoting protein	Homo sapiens	15-18
30583575-1	2018	The commercial P25 titania has been modified with transition metallic species (Cr, Co, Ni, and Cu), added by impregnation with aqueous solutions of the corresponding nitrates.	Cobalt	83-85	tubulin polymerization promoting protein	Homo sapiens	15-18
30583575-1	2018	The commercial P25 titania has been modified with transition metallic species (Cr, Co, Ni, and Cu), added by impregnation with aqueous solutions of the corresponding nitrates.	Copper	95-97	tubulin polymerization promoting protein	Homo sapiens	15-18
30583575-1	2018	The commercial P25 titania has been modified with transition metallic species (Cr, Co, Ni, and Cu), added by impregnation with aqueous solutions of the corresponding nitrates.	Nitrates	166-174	tubulin polymerization promoting protein	Homo sapiens	15-18
30583575-5	2018	The effect of the nature of the added metallic species is mainly based on the electrochemical properties of the supported species, being Cu/P25 (the sample that contains copper) the best performing catalyst.	Copper	170-176	tubulin polymerization promoting protein	Homo sapiens	140-143
30583575-6	2018	In the photodecomposition of acetic acid, all the metal-containing samples are more active than bare P25, while in the gas phase oxidation of propene, bare P25 is more active.	Metals	50-55	tubulin polymerization promoting protein	Homo sapiens	101-104
30583575-6	2018	In the photodecomposition of acetic acid, all the metal-containing samples are more active than bare P25, while in the gas phase oxidation of propene, bare P25 is more active.	Metals	50-55	tubulin polymerization promoting protein	Homo sapiens	156-159
30583575-6	2018	In the photodecomposition of acetic acid, all the metal-containing samples are more active than bare P25, while in the gas phase oxidation of propene, bare P25 is more active.	propylene	142-149	tubulin polymerization promoting protein	Homo sapiens	156-159
30423926-7	2018	The TiO2-HT catalysts are, in general, more active than TiO2-SG materials or P25 in the photo-oxidation of propene.	propylene	107-114	tubulin polymerization promoting protein	Homo sapiens	77-80
30264081-2	2018	The drastically enhanced catalytic efficiency (as much as 13 times higher than that of P25) in degrading dye molecules over mp-MXene/TiO2-x NDs is due to a synergistic effect of the pseudo-Fenton reaction and photocatalysis.	mp-mxene	124-132	tubulin polymerization promoting protein	Homo sapiens	87-90
30264081-2	2018	The drastically enhanced catalytic efficiency (as much as 13 times higher than that of P25) in degrading dye molecules over mp-MXene/TiO2-x NDs is due to a synergistic effect of the pseudo-Fenton reaction and photocatalysis.	tio2-x nds	133-143	tubulin polymerization promoting protein	Homo sapiens	87-90
30308991-5	2018	The highest H2 evolution rate was observed over P25 based samples and the H2 treatment resulted in more active samples than the other co-catalyst formation methods.	Hydrogen	12-14	tubulin polymerization promoting protein	Homo sapiens	48-51
30308991-7	2018	Platinum was more easily reducible in all of the P25 supported samples compared to those obtained from the more water-retentive homemade TiO2.	Platinum	0-8	tubulin polymerization promoting protein	Homo sapiens	49-52
30392320-8	2018	Results: The P(50) (P(25)-P(75)) of serum bisphenol A exposure level during early pregnancy was 0.231 (0.106-0.512) ng/ml.	bisphenol A	42-53	tubulin polymerization promoting protein	Homo sapiens	20-25
30345270-7	2018	In particular, the 0.4 at.% N doped TiO2 catalyst exhibited the highest catalytic performance with quadruple efficiency compared to the P-25 standard TiO2 nanoparticles, which featured a 91% degradation of methyl orange organic dye within 300 min.	titanium dioxide	36-40	tubulin polymerization promoting protein	Homo sapiens	136-140
30011123-7	2018	Subcellular localization of co-expressed P25 and BvAUX28 showed that P25 inhibits BvAUX28 nuclear localization.	bvaux28	49-56	tubulin polymerization promoting protein	Homo sapiens	69-72
29920974-4	2018	A significant elevation in the photocatalytic hydrogen evolution rate is achieved with a maximal value of 3.02 mmol g-1  h-1 during the first 3 h, which is almost 76-fold higher than that of P25 and comparable to that of Pt-P25.	Hydrogen	46-54	tubulin polymerization promoting protein	Homo sapiens	224-227
30225069-4	2018	The XPS spectra showed that the prepared catalyst consisted of Bi, V, O, Ti and C. The photocatalytic activity of BiVO4/P25 was evaluated by degraded methyl blue (MB) and tetracycline under visible light illumination (lambda &gt; 420 nm), and the results showed that BiVO4/P25 composite has a better photocatalytic performance compared with pure BiVO4 and the most active c-BiVO4/P25 sample showed enough catalytic stability after three successive reuses for MB photodegradation.	Methyl Blue	150-161	tubulin polymerization promoting protein	Homo sapiens	114-123
30225069-4	2018	The XPS spectra showed that the prepared catalyst consisted of Bi, V, O, Ti and C. The photocatalytic activity of BiVO4/P25 was evaluated by degraded methyl blue (MB) and tetracycline under visible light illumination (lambda &gt; 420 nm), and the results showed that BiVO4/P25 composite has a better photocatalytic performance compared with pure BiVO4 and the most active c-BiVO4/P25 sample showed enough catalytic stability after three successive reuses for MB photodegradation.	Methyl Blue	163-165	tubulin polymerization promoting protein	Homo sapiens	114-123
30225069-4	2018	The XPS spectra showed that the prepared catalyst consisted of Bi, V, O, Ti and C. The photocatalytic activity of BiVO4/P25 was evaluated by degraded methyl blue (MB) and tetracycline under visible light illumination (lambda &gt; 420 nm), and the results showed that BiVO4/P25 composite has a better photocatalytic performance compared with pure BiVO4 and the most active c-BiVO4/P25 sample showed enough catalytic stability after three successive reuses for MB photodegradation.	Tetracycline	171-183	tubulin polymerization promoting protein	Homo sapiens	114-123
30225069-4	2018	The XPS spectra showed that the prepared catalyst consisted of Bi, V, O, Ti and C. The photocatalytic activity of BiVO4/P25 was evaluated by degraded methyl blue (MB) and tetracycline under visible light illumination (lambda &gt; 420 nm), and the results showed that BiVO4/P25 composite has a better photocatalytic performance compared with pure BiVO4 and the most active c-BiVO4/P25 sample showed enough catalytic stability after three successive reuses for MB photodegradation.	bismuth vanadium tetraoxide	114-119	tubulin polymerization promoting protein	Homo sapiens	267-276
30225069-4	2018	The XPS spectra showed that the prepared catalyst consisted of Bi, V, O, Ti and C. The photocatalytic activity of BiVO4/P25 was evaluated by degraded methyl blue (MB) and tetracycline under visible light illumination (lambda &gt; 420 nm), and the results showed that BiVO4/P25 composite has a better photocatalytic performance compared with pure BiVO4 and the most active c-BiVO4/P25 sample showed enough catalytic stability after three successive reuses for MB photodegradation.	bismuth vanadium tetraoxide	114-119	tubulin polymerization promoting protein	Homo sapiens	267-276
29574642-7	2018	The quasi-equilibrium adsorption amount of toluene over PhPt-Micro was two times higher than that with commercial nano TiO2 (P25).	Toluene	43-50	tubulin polymerization promoting protein	Homo sapiens	125-128
30054195-6	2018	RESULTS: Seventeen months after starting the project, 66 seizures had been treated with a benzodiazepine in a median (p25-p75) time of 7.5 minutes (5 to 10), decreased from a baseline of 14 minutes (8-30) (P = 0.01).	Benzodiazepines	90-104	tubulin polymerization promoting protein	Homo sapiens	118-121
30154687-10	2018	TLG correlated inversely with p25 (r=-0.486, P=0.041), p75 (r=-0.490, P=0.039), p90 (r=-0.513, P=0.029), ADC median (r=-0.497, P=0.036), and ADC mode (r=-0.546, P=0.019).	(5r)-3-Acetyl-4-Hydroxy-5-Methyl-5-[(1z)-2-Methylbuta-1,3-Dien-1-Yl]thiophen-2(5h)-One	0-3	tubulin polymerization promoting protein	Homo sapiens	30-33
29986383-0	2018	Photocatalytic Oxidation of VOCs in Gas Phase Using Capillary Microreactors with Commercial TiO2 (P25) Fillings.	titanium dioxide	92-96	tubulin polymerization promoting protein	Homo sapiens	98-101
29986383-2	2018	In this work, we have developed an easy methodology to immobilize a benchmark photocatalyst (P25) inside a capillary microreactor (Fused silica capillary with UV transparent coating) without any previous treatment.	Silicon Dioxide	137-143	tubulin polymerization promoting protein	Homo sapiens	93-96
29986383-3	2018	For this purpose, a dispersion of the sample (P25) in EtOH was used obtaining a packed bed configuration.	Ethanol	54-58	tubulin polymerization promoting protein	Homo sapiens	46-49
29986383-6	2018	These microreactors show a good performance in the abatement of propene (VOC) under flow conditions per mol of active phase (P25) due to an improved mass transfer when the photocatalyst is inside the capillary.	propylene	64-71	tubulin polymerization promoting protein	Homo sapiens	125-128
29986383-8	2018	The microreactor with low pressure drop is very interesting for the abatement of the VOCs since it improves the photoactivity of P25 per mol of TiO2 operating at near atmospheric pressure.	titanium dioxide	144-148	tubulin polymerization promoting protein	Homo sapiens	129-132
29574642-9	2018	The mineralization efficiency of toluene over PhPt-Micro was 2.4 and 5.9 times higher than those over Micro and P25, respectively.	Toluene	33-40	tubulin polymerization promoting protein	Homo sapiens	112-115
29442851-5	2018	Based on the designed structure, the REF-UCNCs, Mo-doping, and GN (graphene) have a synergistic effect that can improve catalytic activity of P25 significantly.	Graphite	63-65	tubulin polymerization promoting protein	Homo sapiens	142-145
29407814-4	2018	Under visible light irradiation, the PDs-TiO2 demonstrate excellent photocatalytic activity for methyl orange degradation, and the photocatalytic rate constant of PDs-TiO2 is 3.6 and 9.5 times higher than that of pure TiO2 and commercial P25, respectively.	pds-tio2	37-45	tubulin polymerization promoting protein	Homo sapiens	238-241
29407814-4	2018	Under visible light irradiation, the PDs-TiO2 demonstrate excellent photocatalytic activity for methyl orange degradation, and the photocatalytic rate constant of PDs-TiO2 is 3.6 and 9.5 times higher than that of pure TiO2 and commercial P25, respectively.	methyl orange	96-109	tubulin polymerization promoting protein	Homo sapiens	238-241
29407814-4	2018	Under visible light irradiation, the PDs-TiO2 demonstrate excellent photocatalytic activity for methyl orange degradation, and the photocatalytic rate constant of PDs-TiO2 is 3.6 and 9.5 times higher than that of pure TiO2 and commercial P25, respectively.	3-{1-[3-(Dimethylamino)propyl]-2-Methyl-1h-Indol-3-Yl}-4-(2-Methyl-1h-Indol-3-Yl)-1h-Pyrrole-2,5-Dione	37-40	tubulin polymerization promoting protein	Homo sapiens	238-241
29407814-4	2018	Under visible light irradiation, the PDs-TiO2 demonstrate excellent photocatalytic activity for methyl orange degradation, and the photocatalytic rate constant of PDs-TiO2 is 3.6 and 9.5 times higher than that of pure TiO2 and commercial P25, respectively.	titanium dioxide	41-45	tubulin polymerization promoting protein	Homo sapiens	238-241
29407814-4	2018	Under visible light irradiation, the PDs-TiO2 demonstrate excellent photocatalytic activity for methyl orange degradation, and the photocatalytic rate constant of PDs-TiO2 is 3.6 and 9.5 times higher than that of pure TiO2 and commercial P25, respectively.	titanium dioxide	167-171	tubulin polymerization promoting protein	Homo sapiens	238-241
29628110-0	2018	Photocatalytic properties of P25-doped TiO2 composite film synthesized via sol-gel method on cement substrate.	titanium dioxide	39-43	tubulin polymerization promoting protein	Homo sapiens	29-32
29628110-2	2018	To develop a simple and effective method for improving the photodegradation efficiency of pollutants in surface water, we herein examined the preparation of a P25-TiO2 composite film on a cement substrate via a sol-gel method.	titanium dioxide	163-167	tubulin polymerization promoting protein	Homo sapiens	159-162
29628110-4	2018	The self-generated TiO2 film and the P25-TiO2 composite film were characterized by X-ray diffraction (XRD), N2 adsorption/desorption measurements, scanning electron microscopy (SEM), transmission electron microscopy (TEM), and diffuse reflectance spectroscopy (DRS).	titanium dioxide	41-45	tubulin polymerization promoting protein	Homo sapiens	37-40
29628110-6	2018	Over 4day exposure, the P25-TiO2 composite film exhibited higher photocatalytic performance than the self-generated TiO2 film.	titanium dioxide	28-32	tubulin polymerization promoting protein	Homo sapiens	24-27
29628110-6	2018	Over 4day exposure, the P25-TiO2 composite film exhibited higher photocatalytic performance than the self-generated TiO2 film.	titanium dioxide	116-120	tubulin polymerization promoting protein	Homo sapiens	24-27
29628110-7	2018	The photodegradation rate indicated that the efficiency of the P25-TiO2 composite film was enhanced by the addition of the rutile phase Degussa P25 powder.	titanium dioxide	67-71	tubulin polymerization promoting protein	Homo sapiens	63-66
29628110-7	2018	The photodegradation rate indicated that the efficiency of the P25-TiO2 composite film was enhanced by the addition of the rutile phase Degussa P25 powder.	titanium dioxide	67-71	tubulin polymerization promoting protein	Homo sapiens	144-147
29628110-9	2018	In addition, the influence of P25 doping on the P25-TiO2 composite films was evaluated.	titanium dioxide	52-56	tubulin polymerization promoting protein	Homo sapiens	48-51
29628110-11	2018	Thus, we herein demonstrated that the doping of P25 powders is a simple but effective strategy to prepare a P25-TiO2 composite film on a cement substrate, and the resulting film exhibits excellent removal efficiency in the degradation of organic pollutants.	titanium dioxide	112-116	tubulin polymerization promoting protein	Homo sapiens	48-51
29628110-11	2018	Thus, we herein demonstrated that the doping of P25 powders is a simple but effective strategy to prepare a P25-TiO2 composite film on a cement substrate, and the resulting film exhibits excellent removal efficiency in the degradation of organic pollutants.	titanium dioxide	112-116	tubulin polymerization promoting protein	Homo sapiens	108-111
29498227-0	2018	Boosting the Photocatalytic Activity of P25 for Carbon Dioxide Reduction by using a Surface-Alkalinized Titanium Carbide MXene as Cocatalyst.	Carbon Dioxide	48-62	tubulin polymerization promoting protein	Homo sapiens	40-43
29498227-0	2018	Boosting the Photocatalytic Activity of P25 for Carbon Dioxide Reduction by using a Surface-Alkalinized Titanium Carbide MXene as Cocatalyst.	titanium carbide mxene	104-126	tubulin polymerization promoting protein	Homo sapiens	40-43
29498227-3	2018	Herein titanium carbide (Ti3 C2 ) MXene is shown to be a highly efficient noble-metal-free cocatalyst with commercial titania (P25) for photocatalytic CO2 reduction.	titanium carbide (ti3 c2 ) mxene	7-39	tubulin polymerization promoting protein	Homo sapiens	127-130
29498227-3	2018	Herein titanium carbide (Ti3 C2 ) MXene is shown to be a highly efficient noble-metal-free cocatalyst with commercial titania (P25) for photocatalytic CO2 reduction.	cocatalyst	91-101	tubulin polymerization promoting protein	Homo sapiens	127-130
29498227-3	2018	Herein titanium carbide (Ti3 C2 ) MXene is shown to be a highly efficient noble-metal-free cocatalyst with commercial titania (P25) for photocatalytic CO2 reduction.	Carbon Dioxide	151-154	tubulin polymerization promoting protein	Homo sapiens	127-130
29498227-4	2018	Surface alkalinization of Ti3 C2 dramatically enhances the activity; the evolution rates of CO (11.74 mumol g-1  h-1 ) and CH4 (16.61 mumol g-1  h-1 ) are 3- and 277-times higher than those of bare P25, respectively.	Carbon Monoxide	92-94	tubulin polymerization promoting protein	Homo sapiens	198-201
29806010-10	2018	The selectivity toward CO was found to be highly sensitive to the substrate types, with significantly lower yield on P25 or commercial anatase TiO2 substrates.	Carbon Monoxide	23-25	tubulin polymerization promoting protein	Homo sapiens	117-120
29882935-2	2018	P-25 is a commercial TiO2 preparation which, if incorporated into large civil buildings, is extremely expensive.	titanium dioxide	21-25	tubulin polymerization promoting protein	Homo sapiens	0-4
29543290-5	2018	The photocatalytic reaction rate constants of phenol and dichlorophen on HPT550 porous TiO2 hollow spheres were about ~4 and ~2 times higher than those on P25, respectively.	Phenol	46-52	tubulin polymerization promoting protein	Homo sapiens	155-158
29442851-5	2018	Based on the designed structure, the REF-UCNCs, Mo-doping, and GN (graphene) have a synergistic effect that can improve catalytic activity of P25 significantly.	Graphite	67-75	tubulin polymerization promoting protein	Homo sapiens	142-145
29442851-6	2018	The results of photocatalytic experiments using RhB as a model pollutant under simulated solar light irradiation show that the photocatalytic efficiency of the as-prepared catalyst is 3-folds higher than that of benchmark substance P25.	rhb	48-51	tubulin polymerization promoting protein	Homo sapiens	232-235
29048390-3	2017	Especially under the visible light, the TiO2/Sn3O4 nanocomposites demonstrated a superb photocatalytic activity, with 81.2% of methyl orange (MO) decomposed at 30 min after irradiation, which greatly exceeded that of the P25 (13.4%), TiO2 (0.5%) and pure Sn3O4 (59.1%) nanostructures.	titanium dioxide	40-44	tubulin polymerization promoting protein	Homo sapiens	221-224
29543290-5	2018	The photocatalytic reaction rate constants of phenol and dichlorophen on HPT550 porous TiO2 hollow spheres were about ~4 and ~2 times higher than those on P25, respectively.	Dichlorophen	57-69	tubulin polymerization promoting protein	Homo sapiens	155-158
29543290-5	2018	The photocatalytic reaction rate constants of phenol and dichlorophen on HPT550 porous TiO2 hollow spheres were about ~4 and ~2 times higher than those on P25, respectively.	hpt550	73-79	tubulin polymerization promoting protein	Homo sapiens	155-158
29188991-4	2017	The photocatalyst P25 or Pt/P25 was embedded on the surface of polymer-coated stainless steel wires, and such steel wires were woven into a filtering network.	Polymers	63-70	tubulin polymerization promoting protein	Homo sapiens	18-21
29188991-4	2017	The photocatalyst P25 or Pt/P25 was embedded on the surface of polymer-coated stainless steel wires, and such steel wires were woven into a filtering network.	Polymers	63-70	tubulin polymerization promoting protein	Homo sapiens	28-31
29258171-4	2017	It is observed that the samples calcined at 250  C and 500  C present a high photoactivity for the photooxidation of propene, which is similar to the benchmark material P25 (commercial TiO2).	propylene	117-124	tubulin polymerization promoting protein	Homo sapiens	169-172
29258171-4	2017	It is observed that the samples calcined at 250  C and 500  C present a high photoactivity for the photooxidation of propene, which is similar to the benchmark material P25 (commercial TiO2).	titanium dioxide	185-189	tubulin polymerization promoting protein	Homo sapiens	169-172
29213065-7	2017	We also revealed that a new potent SIRT2 inhibitor (MZ242) and its proteolysis targeting chimera (SH1) acting together with TPPP/p25 provoke microtubule hyperacetylation, which is coupled with process elongation only in the case of the degrader SH1.	mz242	52-57	tubulin polymerization promoting protein	Homo sapiens	124-128
29213065-7	2017	We also revealed that a new potent SIRT2 inhibitor (MZ242) and its proteolysis targeting chimera (SH1) acting together with TPPP/p25 provoke microtubule hyperacetylation, which is coupled with process elongation only in the case of the degrader SH1.	mz242	52-57	tubulin polymerization promoting protein	Homo sapiens	129-132
29125570-1	2017	Highly crystalline mesoporous anatase TiO2 nanospheres with high surface area (higher than P25 and anatase TiO2) are prepared by a soft-template method.	titanium dioxide	38-42	tubulin polymerization promoting protein	Homo sapiens	91-94
29125570-3	2017	The rate constant of the mesoporous anatase TiO2 (0.024 min-1) reported here is 364% higher than that of P25 (0.0066 min-1), for the same catalytic loading.	titanium dioxide	44-48	tubulin polymerization promoting protein	Homo sapiens	105-108
29242873-0	2018	The effect of amorphous TiO2 in P25 on dye-sensitized solar cell performance.	titanium dioxide	24-28	tubulin polymerization promoting protein	Homo sapiens	32-35
29242873-1	2018	P25 is one of the most widely used forms of titanium(iv) oxide (TiO2), routinely utilised in dye-sensitised solar cells (DSCs), where it is often employed as a control, in spite of its poorly defined nature and the typically low device efficiency (or possibly because of this).	titanium dioxide	44-62	tubulin polymerization promoting protein	Homo sapiens	0-3
29242873-1	2018	P25 is one of the most widely used forms of titanium(iv) oxide (TiO2), routinely utilised in dye-sensitised solar cells (DSCs), where it is often employed as a control, in spite of its poorly defined nature and the typically low device efficiency (or possibly because of this).	titanium dioxide	64-68	tubulin polymerization promoting protein	Homo sapiens	0-3
28610393-1	2017	S, N co-doped graphene quantum dots (S,N-GQDs) coupled with P25 (TiO2) (S,N-GQD/P25) have been prepared via simply hydrothermal method.	titanium dioxide	65-69	tubulin polymerization promoting protein	Homo sapiens	60-63
28610393-1	2017	S, N co-doped graphene quantum dots (S,N-GQDs) coupled with P25 (TiO2) (S,N-GQD/P25) have been prepared via simply hydrothermal method.	titanium dioxide	65-69	tubulin polymerization promoting protein	Homo sapiens	80-83
28610393-2	2017	The as-prepared S,N-GQD/P25 composites exhibited excellent photocatalytic hydrogen generation activities, with a significantly extended light absorption range and superior durability without loading any noble metal cocatalyst.	Nitrogen	18-19	tubulin polymerization promoting protein	Homo sapiens	24-27
28610393-2	2017	The as-prepared S,N-GQD/P25 composites exhibited excellent photocatalytic hydrogen generation activities, with a significantly extended light absorption range and superior durability without loading any noble metal cocatalyst.	Hydrogen	74-82	tubulin polymerization promoting protein	Homo sapiens	24-27
28610393-4	2017	This remarkable improvement in photocatalytic activity of the S,N-GQD/P25 composites can be attributed to that S,N-GQDs play a key role to enhance visible light absorption and facilitate the separation and transfer of photogenerated electrons and holes.	Nitrogen	64-65	tubulin polymerization promoting protein	Homo sapiens	70-73
28610393-4	2017	This remarkable improvement in photocatalytic activity of the S,N-GQD/P25 composites can be attributed to that S,N-GQDs play a key role to enhance visible light absorption and facilitate the separation and transfer of photogenerated electrons and holes.	Nitrogen	113-114	tubulin polymerization promoting protein	Homo sapiens	70-73
29209606-1	2017	Carbon domains have been obtained at the surface of a MoS2/TiO2 (Evonik, P25) system via oligomerization and cyclotrimerization reactions involved in the interaction of the photoactive material with acetylene.	Carbon	0-6	tubulin polymerization promoting protein	Homo sapiens	73-76
29209606-1	2017	Carbon domains have been obtained at the surface of a MoS2/TiO2 (Evonik, P25) system via oligomerization and cyclotrimerization reactions involved in the interaction of the photoactive material with acetylene.	titanium dioxide	59-63	tubulin polymerization promoting protein	Homo sapiens	73-76
29209606-1	2017	Carbon domains have been obtained at the surface of a MoS2/TiO2 (Evonik, P25) system via oligomerization and cyclotrimerization reactions involved in the interaction of the photoactive material with acetylene.	Acetylene	199-208	tubulin polymerization promoting protein	Homo sapiens	73-76
29048390-3	2017	Especially under the visible light, the TiO2/Sn3O4 nanocomposites demonstrated a superb photocatalytic activity, with 81.2% of methyl orange (MO) decomposed at 30 min after irradiation, which greatly exceeded that of the P25 (13.4%), TiO2 (0.5%) and pure Sn3O4 (59.1%) nanostructures.	sn3o4	45-50	tubulin polymerization promoting protein	Homo sapiens	221-224
28575791-3	2017	TiO2 NPs+UV enhanced total EPS, manifesting as LB-EPS increased by 98.16% (An+UV), 143.03% (Ru+UV), and 48.21% (P25+UV), while TB-EPS increased to 1.51 (An+UV), 1.36 (Ru+UV), and 1.61 (P25+UV) times greater than control without NPs and UVC, being mainly attributed to increase of polysaccharide and proteins.	titanium dioxide	0-4	tubulin polymerization promoting protein	Homo sapiens	112-115
28575791-3	2017	TiO2 NPs+UV enhanced total EPS, manifesting as LB-EPS increased by 98.16% (An+UV), 143.03% (Ru+UV), and 48.21% (P25+UV), while TB-EPS increased to 1.51 (An+UV), 1.36 (Ru+UV), and 1.61 (P25+UV) times greater than control without NPs and UVC, being mainly attributed to increase of polysaccharide and proteins.	titanium dioxide	0-4	tubulin polymerization promoting protein	Homo sapiens	185-188
28575791-3	2017	TiO2 NPs+UV enhanced total EPS, manifesting as LB-EPS increased by 98.16% (An+UV), 143.03% (Ru+UV), and 48.21% (P25+UV), while TB-EPS increased to 1.51 (An+UV), 1.36 (Ru+UV), and 1.61 (P25+UV) times greater than control without NPs and UVC, being mainly attributed to increase of polysaccharide and proteins.	exophthalmos producing substance	27-30	tubulin polymerization promoting protein	Homo sapiens	112-115
28575791-3	2017	TiO2 NPs+UV enhanced total EPS, manifesting as LB-EPS increased by 98.16% (An+UV), 143.03% (Ru+UV), and 48.21% (P25+UV), while TB-EPS increased to 1.51 (An+UV), 1.36 (Ru+UV), and 1.61 (P25+UV) times greater than control without NPs and UVC, being mainly attributed to increase of polysaccharide and proteins.	exophthalmos producing substance	27-30	tubulin polymerization promoting protein	Homo sapiens	185-188
28575791-4	2017	Three-dimensional fluorescence spectrum revealed tyrosine (An+UV and P25+UV) and tryptophan (P25+UV) protein-like substances vanished in LB-EPS.	Tryptophan	81-91	tubulin polymerization promoting protein	Homo sapiens	93-96
28575791-4	2017	Three-dimensional fluorescence spectrum revealed tyrosine (An+UV and P25+UV) and tryptophan (P25+UV) protein-like substances vanished in LB-EPS.	lb-eps	137-143	tubulin polymerization promoting protein	Homo sapiens	69-72
28575791-4	2017	Three-dimensional fluorescence spectrum revealed tyrosine (An+UV and P25+UV) and tryptophan (P25+UV) protein-like substances vanished in LB-EPS.	lb-eps	137-143	tubulin polymerization promoting protein	Homo sapiens	93-96
28512708-3	2017	The combination of US/UV/P25 exhibited the highest BPA removal rate (28.0 x 10-3 min-1).	bisphenol A	51-54	tubulin polymerization promoting protein	Homo sapiens	25-28
31457775-5	2017	The MASA process is a simple method to smoothly coat or fill the pores of titania with mesoporous CdO-SiO2 or CdTiO3 that can be reacted under an H2Se atmosphere to convert cadmium species to CdSe at 100  C. Etching of the silica films with a very dilute hydrogen fluoride solution produces mesoporous CdSe-titania (meso-CdSe-P25) electrodes.	MASA	4-8	tubulin polymerization promoting protein	Homo sapiens	326-329
31457775-5	2017	The MASA process is a simple method to smoothly coat or fill the pores of titania with mesoporous CdO-SiO2 or CdTiO3 that can be reacted under an H2Se atmosphere to convert cadmium species to CdSe at 100  C. Etching of the silica films with a very dilute hydrogen fluoride solution produces mesoporous CdSe-titania (meso-CdSe-P25) electrodes.	cdtio3	110-116	tubulin polymerization promoting protein	Homo sapiens	326-329
31457775-5	2017	The MASA process is a simple method to smoothly coat or fill the pores of titania with mesoporous CdO-SiO2 or CdTiO3 that can be reacted under an H2Se atmosphere to convert cadmium species to CdSe at 100  C. Etching of the silica films with a very dilute hydrogen fluoride solution produces mesoporous CdSe-titania (meso-CdSe-P25) electrodes.	Cadmium	173-180	tubulin polymerization promoting protein	Homo sapiens	326-329
28640217-8	2017	Only 19% had taken an iodine-containing supplement during the last 24 h. The median 24 h iodine intake from food (p25, p75) was 121 (82, 162) microg/day and the total intake (food and supplements) was 134 (95, 222) microg/day.	Iodine	89-95	tubulin polymerization promoting protein	Homo sapiens	114-117
27570144-8	2017	The concentration of oxamic acid (OMA, other ANL degradation by-product more refractory than OXA) generally increased with time, and in the photocatalytic ozonation with P25 based materials its concentration decreased earlier.	Oxamic Acid	21-32	tubulin polymerization promoting protein	Homo sapiens	170-173
27570144-8	2017	The concentration of oxamic acid (OMA, other ANL degradation by-product more refractory than OXA) generally increased with time, and in the photocatalytic ozonation with P25 based materials its concentration decreased earlier.	Oxalic Acid	93-96	tubulin polymerization promoting protein	Homo sapiens	170-173
28443909-2	2017	Titanium dioxide photocatalysts were prepared as nanoparticles by acidic sol-gel methods, calcined at two different temperatures, and their behavior compared with P25 (Degussa type) TiO2.	titanium dioxide	0-16	tubulin polymerization promoting protein	Homo sapiens	163-186
28991784-1	2017	Magnetic imprinted N-doped P25/Fe3O4-graphene oxide (MIGNT) was prepared with methyl orange as the dummy template and pyrrole as functional monomer for catalytic degradation of Congo red (CR).	methyl orange	78-91	tubulin polymerization promoting protein	Homo sapiens	27-30
28991784-1	2017	Magnetic imprinted N-doped P25/Fe3O4-graphene oxide (MIGNT) was prepared with methyl orange as the dummy template and pyrrole as functional monomer for catalytic degradation of Congo red (CR).	Pyrroles	118-125	tubulin polymerization promoting protein	Homo sapiens	27-30
28991784-1	2017	Magnetic imprinted N-doped P25/Fe3O4-graphene oxide (MIGNT) was prepared with methyl orange as the dummy template and pyrrole as functional monomer for catalytic degradation of Congo red (CR).	Congo Red	177-186	tubulin polymerization promoting protein	Homo sapiens	27-30
28991784-1	2017	Magnetic imprinted N-doped P25/Fe3O4-graphene oxide (MIGNT) was prepared with methyl orange as the dummy template and pyrrole as functional monomer for catalytic degradation of Congo red (CR).	Congo Red	188-190	tubulin polymerization promoting protein	Homo sapiens	27-30
28324724-3	2017	Here, a robust micro-nanoscale P25 (Nano TiO2)/MgO/epoxy resin (ER) SHP coating has been fabricated via facile one-pot route, which can be applied to arbitrary substrates through multiples methods.	titanium dioxide	41-45	tubulin polymerization promoting protein	Homo sapiens	31-34
28324724-3	2017	Here, a robust micro-nanoscale P25 (Nano TiO2)/MgO/epoxy resin (ER) SHP coating has been fabricated via facile one-pot route, which can be applied to arbitrary substrates through multiples methods.	Magnesium Oxide	47-50	tubulin polymerization promoting protein	Homo sapiens	31-34
28324724-5	2017	P25/MgO/ER SHP coating also is easy to large-scale fabrication with very low cost.	Magnesium Oxide	4-7	tubulin polymerization promoting protein	Homo sapiens	0-3
28324782-3	2017	The photo-degradation of RB5 by BiOBr loaded with 0.2 wt% MoS2 (MoBi-2) exhibited more than 1.4 and 5.0 folds of enhancement over pristine BiOBr and titanium dioxide (Degussa, P25), respectively.	bismuth oxybromide	32-37	tubulin polymerization promoting protein	Homo sapiens	176-179
28512708-1	2017	In this study, bisphenol A (BPA) removal by sonophotocatalysis coupled with commercially available titanium dioxide (TiO2, P25) was assessed in batch tests using energy-based advanced oxidation combining ultrasound (US) and ultraviolet (UV).	bisphenol A	15-26	tubulin polymerization promoting protein	Homo sapiens	123-126
28485583-3	2017	By tuning the composition of the Pd-Cu NPs and catalyst supports, the efficiency of CO2 hydrogenation to C2H5OH was well optimized with Pd2Cu NPs/P25 exhibiting high selectivity to C2H5OH of up to 92.0% and the highest turnover frequency of 359.0 h-1.	Palladium	33-35	tubulin polymerization promoting protein	Homo sapiens	146-149
28485583-3	2017	By tuning the composition of the Pd-Cu NPs and catalyst supports, the efficiency of CO2 hydrogenation to C2H5OH was well optimized with Pd2Cu NPs/P25 exhibiting high selectivity to C2H5OH of up to 92.0% and the highest turnover frequency of 359.0 h-1.	Copper	36-38	tubulin polymerization promoting protein	Homo sapiens	146-149
28485583-3	2017	By tuning the composition of the Pd-Cu NPs and catalyst supports, the efficiency of CO2 hydrogenation to C2H5OH was well optimized with Pd2Cu NPs/P25 exhibiting high selectivity to C2H5OH of up to 92.0% and the highest turnover frequency of 359.0 h-1.	Carbon Dioxide	84-87	tubulin polymerization promoting protein	Homo sapiens	146-149
28485583-3	2017	By tuning the composition of the Pd-Cu NPs and catalyst supports, the efficiency of CO2 hydrogenation to C2H5OH was well optimized with Pd2Cu NPs/P25 exhibiting high selectivity to C2H5OH of up to 92.0% and the highest turnover frequency of 359.0 h-1.	Ethanol	105-111	tubulin polymerization promoting protein	Homo sapiens	146-149
28485583-3	2017	By tuning the composition of the Pd-Cu NPs and catalyst supports, the efficiency of CO2 hydrogenation to C2H5OH was well optimized with Pd2Cu NPs/P25 exhibiting high selectivity to C2H5OH of up to 92.0% and the highest turnover frequency of 359.0 h-1.	Ethanol	181-187	tubulin polymerization promoting protein	Homo sapiens	146-149
28485583-4	2017	Diffuse reflectance infrared Fourier transform spectroscopy results revealed the high C2H5OH production and selectivity of Pd2Cu NPs/P25 can be ascribed to boosting *CO (adsorption CO) hydrogenation to *HCO, the rate-determining step for the CO2 hydrogenation to C2H5OH.	Ethanol	86-92	tubulin polymerization promoting protein	Homo sapiens	133-136
28485583-4	2017	Diffuse reflectance infrared Fourier transform spectroscopy results revealed the high C2H5OH production and selectivity of Pd2Cu NPs/P25 can be ascribed to boosting *CO (adsorption CO) hydrogenation to *HCO, the rate-determining step for the CO2 hydrogenation to C2H5OH.	7 alpha-hydroxy-4-cholesten-3-one	203-206	tubulin polymerization promoting protein	Homo sapiens	133-136
28485583-4	2017	Diffuse reflectance infrared Fourier transform spectroscopy results revealed the high C2H5OH production and selectivity of Pd2Cu NPs/P25 can be ascribed to boosting *CO (adsorption CO) hydrogenation to *HCO, the rate-determining step for the CO2 hydrogenation to C2H5OH.	Carbon Dioxide	242-245	tubulin polymerization promoting protein	Homo sapiens	133-136
28485583-4	2017	Diffuse reflectance infrared Fourier transform spectroscopy results revealed the high C2H5OH production and selectivity of Pd2Cu NPs/P25 can be ascribed to boosting *CO (adsorption CO) hydrogenation to *HCO, the rate-determining step for the CO2 hydrogenation to C2H5OH.	Ethanol	263-269	tubulin polymerization promoting protein	Homo sapiens	133-136
28350021-0	2017	New insights into the photocatalytic activity of 3-D core-shell P25@silica nanocomposites: impact of mesoporous coating.	Silicon Dioxide	68-74	tubulin polymerization promoting protein	Homo sapiens	64-67
27808426-6	2017	RESULTS: In the venlafaxine arm, the spinal P11 and the late cortical N60-80 latencies were reduced by 1.8% [95% confidence interval (CI) 1.7%, 1.9%) and 5.7% (95% CI 5.3%, 6.1%), whereas the early cortical P25 amplitude was decreased by 7.1% (95%CI 6.1%, 8.7%).	Venlafaxine Hydrochloride	16-27	tubulin polymerization promoting protein	Homo sapiens	207-210
28068571-0	2017	Photocatalytic degradation of clofibric acid by g-C3N4/P25 composites under simulated sunlight irradiation: The significant effects of reactive species.	Clofibric Acid	30-44	tubulin polymerization promoting protein	Homo sapiens	55-58
28068571-2	2017	In the present paper, the reactive species (RSs)-induced degradation mechanism of clofibric acid (CA) was investigated using a newly sunlight-driven g-C3N4/P25 photocatalyst.	reactive species	26-42	tubulin polymerization promoting protein	Homo sapiens	156-159
28068571-2	2017	In the present paper, the reactive species (RSs)-induced degradation mechanism of clofibric acid (CA) was investigated using a newly sunlight-driven g-C3N4/P25 photocatalyst.	RSS	44-47	tubulin polymerization promoting protein	Homo sapiens	156-159
28068571-2	2017	In the present paper, the reactive species (RSs)-induced degradation mechanism of clofibric acid (CA) was investigated using a newly sunlight-driven g-C3N4/P25 photocatalyst.	Clofibric Acid	82-96	tubulin polymerization promoting protein	Homo sapiens	156-159
28068571-3	2017	A very low g-C3N4 content of 8.0 weight percent resulted in a 3.36 and a 2.29 times faster reaction rate for CA photodegradation than for pristine g-C3N4 and P25, respectively.	g-c3n4	11-17	tubulin polymerization promoting protein	Homo sapiens	158-161
29659223-6	2017	Both P25 and BiOCl nanoplates can decompose the whole RhB dye within 30 minutes, which indicates that BiOCl nanoplates are of the comparative photocatalytic performance as P25.	rhb	54-57	tubulin polymerization promoting protein	Homo sapiens	5-8
29659223-6	2017	Both P25 and BiOCl nanoplates can decompose the whole RhB dye within 30 minutes, which indicates that BiOCl nanoplates are of the comparative photocatalytic performance as P25.	rhb	54-57	tubulin polymerization promoting protein	Homo sapiens	172-175
27658399-2	2017	The wet impregnation method was used for copper and zirconium modification of the surface of Aeroxide P25 TiO2 particles.	Zirconium	52-61	tubulin polymerization promoting protein	Homo sapiens	102-105
27658399-2	2017	The wet impregnation method was used for copper and zirconium modification of the surface of Aeroxide P25 TiO2 particles.	titanium dioxide	106-110	tubulin polymerization promoting protein	Homo sapiens	102-105
28287189-0	2017	Efficient Photocatalytic Bilirubin Removal over the Biocompatible Core/Shell P25/g-C3N4 Heterojunctions with Metal-free Exposed Surfaces under Moderate Green Light Irradiation.	Bilirubin	25-34	tubulin polymerization promoting protein	Homo sapiens	77-80
28287189-0	2017	Efficient Photocatalytic Bilirubin Removal over the Biocompatible Core/Shell P25/g-C3N4 Heterojunctions with Metal-free Exposed Surfaces under Moderate Green Light Irradiation.	Metals	109-114	tubulin polymerization promoting protein	Homo sapiens	77-80
28287189-1	2017	Highly-monodispersed g-C3N4/TiO2 hybrids with a core/shell structure were synthesized from a simple room temperature impregnation method, in which g-C3N4 was coated through self-assembly on the commercially available Degussa P25 TiO2 nanoparticles.	titanium dioxide	28-32	tubulin polymerization promoting protein	Homo sapiens	225-228
28287189-4	2017	The photocatalytic activity and stability of g-C3N4/TiO2 were enhanced relative to pure P25 or g-C3N4, which could be ascribed to the effective Z-scheme separation of photo-induced charge carriers in g-C3N4/TiO2 heterojunction.	g-c3n4	45-51	tubulin polymerization promoting protein	Homo sapiens	88-91
28287189-4	2017	The photocatalytic activity and stability of g-C3N4/TiO2 were enhanced relative to pure P25 or g-C3N4, which could be ascribed to the effective Z-scheme separation of photo-induced charge carriers in g-C3N4/TiO2 heterojunction.	titanium dioxide	52-56	tubulin polymerization promoting protein	Homo sapiens	88-91
28287189-4	2017	The photocatalytic activity and stability of g-C3N4/TiO2 were enhanced relative to pure P25 or g-C3N4, which could be ascribed to the effective Z-scheme separation of photo-induced charge carriers in g-C3N4/TiO2 heterojunction.	titanium dioxide	207-211	tubulin polymerization promoting protein	Homo sapiens	88-91
28287189-5	2017	The photoactivity was maximized in the 4 wt.% g-C3N4-coated P25, as the bilirubin removal rate under green light irradiation was more than 5-fold higher than that under the clinically-used blue light without any photocatalyst.	Bilirubin	72-81	tubulin polymerization promoting protein	Homo sapiens	60-63
27992084-8	2017	The generation of plasmonic active gold particles on the TiO2 shell leads to an efficient material for visible-light-driven photocatalysis with a higher activity than gold-decorated P25 (Degussa).	titanium dioxide	57-61	tubulin polymerization promoting protein	Homo sapiens	182-185
27357708-5	2017	The UVA photocatalytic process for the inactivation of microorganisms (bacteria and fungi, ATCC strains and isolates from indoor air samples of a WWTP) using titanium dioxide (TiO2 P25) and zinc oxide (ZnO) was tested in both liquid-phase and airborne conditions.	titanium dioxide	158-174	tubulin polymerization promoting protein	Homo sapiens	181-184
28350021-0	2017	New insights into the photocatalytic activity of 3-D core-shell P25@silica nanocomposites: impact of mesoporous coating.	mesoporous	101-111	tubulin polymerization promoting protein	Homo sapiens	64-67
28350021-1	2017	In this report, a three-dimensional (3-D) network of core-shell TiO2 (P25)-mesoporous SiO2 (P25@mSiO2) nanocomposites was prepared via a controllable surfactant-assisted sol-gel method.	titanium dioxide	64-68	tubulin polymerization promoting protein	Homo sapiens	70-73
28350021-1	2017	In this report, a three-dimensional (3-D) network of core-shell TiO2 (P25)-mesoporous SiO2 (P25@mSiO2) nanocomposites was prepared via a controllable surfactant-assisted sol-gel method.	titanium dioxide	64-68	tubulin polymerization promoting protein	Homo sapiens	92-95
28350021-1	2017	In this report, a three-dimensional (3-D) network of core-shell TiO2 (P25)-mesoporous SiO2 (P25@mSiO2) nanocomposites was prepared via a controllable surfactant-assisted sol-gel method.	Silicon Dioxide	86-90	tubulin polymerization promoting protein	Homo sapiens	70-73
28350021-1	2017	In this report, a three-dimensional (3-D) network of core-shell TiO2 (P25)-mesoporous SiO2 (P25@mSiO2) nanocomposites was prepared via a controllable surfactant-assisted sol-gel method.	Silicon Dioxide	86-90	tubulin polymerization promoting protein	Homo sapiens	92-95
28350021-3	2017	It was found that the mSiO2 shell accelerates the photodegradation of the organic dye, but dramatically reduces the photocatalytic activity of P25 in water splitting and CO2 reduction.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	170-173	tubulin polymerization promoting protein	Homo sapiens	143-146
28106390-4	2017	Vertebrate TPPPs originated from the ancient invertebrate TPPP by two-round whole-genome duplication; thus, whether the tubulin/microtubule binding function of TPPP1 and TPPP3 is a newly acquired property or was present in the invertebrate orthologs (generally one TPPP per species) has been an open question.	tppps	11-16	tubulin polymerization promoting protein	Homo sapiens	58-62
27886549-2	2017	In this study, a series of TiO2-graphene composites (P25-GR) with different GR weight ratios were synthesized via hydrothermal reaction of graphene oxide (GO) and P25.	titanium dioxide	27-31	tubulin polymerization promoting protein	Homo sapiens	53-56
27886549-2	2017	In this study, a series of TiO2-graphene composites (P25-GR) with different GR weight ratios were synthesized via hydrothermal reaction of graphene oxide (GO) and P25.	titanium dioxide	27-31	tubulin polymerization promoting protein	Homo sapiens	163-166
27886549-2	2017	In this study, a series of TiO2-graphene composites (P25-GR) with different GR weight ratios were synthesized via hydrothermal reaction of graphene oxide (GO) and P25.	Graphite	32-40	tubulin polymerization promoting protein	Homo sapiens	53-56
27886549-2	2017	In this study, a series of TiO2-graphene composites (P25-GR) with different GR weight ratios were synthesized via hydrothermal reaction of graphene oxide (GO) and P25.	graphene oxide	139-153	tubulin polymerization promoting protein	Homo sapiens	53-56
27886549-2	2017	In this study, a series of TiO2-graphene composites (P25-GR) with different GR weight ratios were synthesized via hydrothermal reaction of graphene oxide (GO) and P25.	graphene oxide	155-157	tubulin polymerization promoting protein	Homo sapiens	53-56
27886549-5	2017	The experiment indicated that P25-2.5%GR exhibited enhancement in both adsorption and photodegradation, ~80% of PAHs were removed after 2h photocatalysis.	Polycyclic Aromatic Hydrocarbons	112-116	tubulin polymerization promoting protein	Homo sapiens	30-33
27886549-5	2017	The experiment indicated that P25-2.5%GR exhibited enhancement in both adsorption and photodegradation, ~80% of PAHs were removed after 2h photocatalysis.	Deuterium	136-138	tubulin polymerization promoting protein	Homo sapiens	30-33
28054766-4	2017	Its catalytic activity (initial CO2 production rate) under the full solar spectrum irradiation is as high as 210.5 times higher than TiO2(P25), a well-known benchmark photocatalyst for environmental cleanup.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	32-35	tubulin polymerization promoting protein	Homo sapiens	133-141
28074911-4	2017	However, our previous and present data provide evidence for the microtubule-independent dimerization of TPPP/p25 and its stabilization by disulphide bridges.	disulphide	138-148	tubulin polymerization promoting protein	Homo sapiens	104-108
28074911-4	2017	However, our previous and present data provide evidence for the microtubule-independent dimerization of TPPP/p25 and its stabilization by disulphide bridges.	disulphide	138-148	tubulin polymerization promoting protein	Homo sapiens	109-112
27856058-3	2017	TiO2 P-25 was found to be the most photoactive catalyst for the removal of 5-FU, under simulated solar irradiation.	Fluorouracil	75-79	tubulin polymerization promoting protein	Homo sapiens	5-9
27856058-6	2017	Scavenging experiments revealed that HO radicals and h+ were the major reactive species mediating photocatalytic degradation of 5-FU using TiO2 P-25 and N/S-doped TiO2 catalysts, under simulated solar irradiation.	Holmium	37-39	tubulin polymerization promoting protein	Homo sapiens	144-154
27856058-6	2017	Scavenging experiments revealed that HO radicals and h+ were the major reactive species mediating photocatalytic degradation of 5-FU using TiO2 P-25 and N/S-doped TiO2 catalysts, under simulated solar irradiation.	Fluorouracil	128-132	tubulin polymerization promoting protein	Homo sapiens	144-154
27856058-6	2017	Scavenging experiments revealed that HO radicals and h+ were the major reactive species mediating photocatalytic degradation of 5-FU using TiO2 P-25 and N/S-doped TiO2 catalysts, under simulated solar irradiation.	titanium dioxide	139-143	tubulin polymerization promoting protein	Homo sapiens	144-154
27444263-2	2016	This article reports for the first time the facile preparation of N-doped TiO2 (P25 titania) in aqueous media at ambient temperature and pressure under inert conditions (Ar- and N2-purged dispersions) with 4-nitrophenol (or 4-nitrobenzaldehyde) as the nitrogen source.	Nitrogen	66-67	tubulin polymerization promoting protein	Homo sapiens	80-83
27133447-8	2017	Pulmonary artery systolic and mean pressures decreased from 79 to 67 mmHg and from 59 to 50 mmHg, respectively (p25% (both in oxygen) (p=0.007).	Oxygen	126-132	tubulin polymerization promoting protein	Homo sapiens	112-116
27711482-2	2016	Here we report that by using a sol-gel method SrCO3 decorated SrTiO3 nanocatalysts (SrTiO3-S) with an average particle size of ~25 nm can be readily prepared, which surprisingly show efficient performance for photocatalytic oxidation of methane with the activity close to fourfold of P25, a benchmark photocatalyst.	strontium carbonate	46-51	tubulin polymerization promoting protein	Homo sapiens	284-287
27711482-2	2016	Here we report that by using a sol-gel method SrCO3 decorated SrTiO3 nanocatalysts (SrTiO3-S) with an average particle size of ~25 nm can be readily prepared, which surprisingly show efficient performance for photocatalytic oxidation of methane with the activity close to fourfold of P25, a benchmark photocatalyst.	strontium titanium oxide	62-68	tubulin polymerization promoting protein	Homo sapiens	284-287
27711482-2	2016	Here we report that by using a sol-gel method SrCO3 decorated SrTiO3 nanocatalysts (SrTiO3-S) with an average particle size of ~25 nm can be readily prepared, which surprisingly show efficient performance for photocatalytic oxidation of methane with the activity close to fourfold of P25, a benchmark photocatalyst.	srtio3-s	84-92	tubulin polymerization promoting protein	Homo sapiens	284-287
27711734-5	2016	When applied to a photocatalyst for H2 production from water containing methanol under simulated solar light, the layered titanate/P25 mixture showed considerably enhanced activity and the apparent quantum yield was 23% (at 320 nm).	Hydrogen	36-38	tubulin polymerization promoting protein	Homo sapiens	131-134
27711734-5	2016	When applied to a photocatalyst for H2 production from water containing methanol under simulated solar light, the layered titanate/P25 mixture showed considerably enhanced activity and the apparent quantum yield was 23% (at 320 nm).	Water	55-60	tubulin polymerization promoting protein	Homo sapiens	131-134
27711734-5	2016	When applied to a photocatalyst for H2 production from water containing methanol under simulated solar light, the layered titanate/P25 mixture showed considerably enhanced activity and the apparent quantum yield was 23% (at 320 nm).	Methanol	72-80	tubulin polymerization promoting protein	Homo sapiens	131-134
27711734-6	2016	By replacing P25 with Pt co-catalyst-loaded P25, the apparent quantum yield of the mixture increased from 23 to 73%, although an extremely small amount (below 0.06%) of Pt was used in the system.	Platinum	22-24	tubulin polymerization promoting protein	Homo sapiens	44-47
27571475-5	2016	The optimal N-CDs/Cu2O photocatalyst is synthesized with 10 mL of N-CDs solution, which shows the best degradation ability (100%, 70 min), far superior to pure Cu2O cubes (~5%, 70 min) and P25 (~10%, 70 min).	n-cds	12-17	tubulin polymerization promoting protein	Homo sapiens	189-192
27571475-5	2016	The optimal N-CDs/Cu2O photocatalyst is synthesized with 10 mL of N-CDs solution, which shows the best degradation ability (100%, 70 min), far superior to pure Cu2O cubes (~5%, 70 min) and P25 (~10%, 70 min).	cuprous oxide	18-22	tubulin polymerization promoting protein	Homo sapiens	189-192
27571475-5	2016	The optimal N-CDs/Cu2O photocatalyst is synthesized with 10 mL of N-CDs solution, which shows the best degradation ability (100%, 70 min), far superior to pure Cu2O cubes (~5%, 70 min) and P25 (~10%, 70 min).	n-cds	66-71	tubulin polymerization promoting protein	Homo sapiens	189-192
27444263-2	2016	This article reports for the first time the facile preparation of N-doped TiO2 (P25 titania) in aqueous media at ambient temperature and pressure under inert conditions (Ar- and N2-purged dispersions) with 4-nitrophenol (or 4-nitrobenzaldehyde) as the nitrogen source.	doped	68-73	tubulin polymerization promoting protein	Homo sapiens	80-83
27444263-2	2016	This article reports for the first time the facile preparation of N-doped TiO2 (P25 titania) in aqueous media at ambient temperature and pressure under inert conditions (Ar- and N2-purged dispersions) with 4-nitrophenol (or 4-nitrobenzaldehyde) as the nitrogen source.	titanium dioxide	74-78	tubulin polymerization promoting protein	Homo sapiens	80-83
27444263-3	2016	The resulting N-doped P25 TiO2 materials were characterized by UV/Vis and X-ray photoelectron spectroscopies (XPS) that confirmed the presence of nitrogen within the photocatalyst; X-ray diffraction (XRD) techniques confirmed the crystalline phases of the doped material.	titanium dioxide	26-30	tubulin polymerization promoting protein	Homo sapiens	22-25
27444263-3	2016	The resulting N-doped P25 TiO2 materials were characterized by UV/Vis and X-ray photoelectron spectroscopies (XPS) that confirmed the presence of nitrogen within the photocatalyst; X-ray diffraction (XRD) techniques confirmed the crystalline phases of the doped material.	Nitrogen	146-154	tubulin polymerization promoting protein	Homo sapiens	22-25
27444263-5	2016	Under visible light irradiation, undoped P25 was inactive contrary to N-doped P25 that successfully degraded 95% of the 4-chlorophenol (after 10 h) and 23% of iso-propanol (after 2.5 h).	4-chlorophenol	120-134	tubulin polymerization promoting protein	Homo sapiens	78-81
27444263-5	2016	Under visible light irradiation, undoped P25 was inactive contrary to N-doped P25 that successfully degraded 95% of the 4-chlorophenol (after 10 h) and 23% of iso-propanol (after 2.5 h).	2-Propanol	159-171	tubulin polymerization promoting protein	Homo sapiens	78-81
27406992-6	2016	Under solar-light irradiation, the optimized H-TiO2 120(H2-plasma treatment time: 120 min) photocatalysts showed unprecedentedly excellent removal capability for phenol (Ph), reactive black 5(RB 5), rhodamine B (Rho B) and methylene blue (MB) - approximately four-times higher than those of the other photocatalysts (a-TiO2 and P25) - resulting in complete purification of the water.	h-tio2	45-51	tubulin polymerization promoting protein	Homo sapiens	328-331
27456139-1	2016	This study investigated the effectiveness of coating and suspension of Degussa P25 TiO2 photocatalyst to remove natural organic matter (NOM) from surface water for use as power plant feedwater.	titanium dioxide	83-87	tubulin polymerization promoting protein	Homo sapiens	79-82
27456139-1	2016	This study investigated the effectiveness of coating and suspension of Degussa P25 TiO2 photocatalyst to remove natural organic matter (NOM) from surface water for use as power plant feedwater.	Water	154-159	tubulin polymerization promoting protein	Homo sapiens	79-82
27406992-6	2016	Under solar-light irradiation, the optimized H-TiO2 120(H2-plasma treatment time: 120 min) photocatalysts showed unprecedentedly excellent removal capability for phenol (Ph), reactive black 5(RB 5), rhodamine B (Rho B) and methylene blue (MB) - approximately four-times higher than those of the other photocatalysts (a-TiO2 and P25) - resulting in complete purification of the water.	Hydrogen	56-58	tubulin polymerization promoting protein	Homo sapiens	328-331
27406992-6	2016	Under solar-light irradiation, the optimized H-TiO2 120(H2-plasma treatment time: 120 min) photocatalysts showed unprecedentedly excellent removal capability for phenol (Ph), reactive black 5(RB 5), rhodamine B (Rho B) and methylene blue (MB) - approximately four-times higher than those of the other photocatalysts (a-TiO2 and P25) - resulting in complete purification of the water.	titanium dioxide	47-51	tubulin polymerization promoting protein	Homo sapiens	328-331
27155406-7	2016	The results proved that the prepared TiO2 nanoparticle has a photocatalytic activity significantly better than Degussa P-25.	titanium dioxide	37-41	tubulin polymerization promoting protein	Homo sapiens	119-123
27172325-2	2016	The obtained Bi4O5Br2 exhibited outstanding visible light activity and stability compared to BiOBr and P25 for the degradation of resorcinol.	resorcinol	130-140	tubulin polymerization promoting protein	Homo sapiens	103-106
27123779-3	2016	The reactions leading to in situ formation of the metal selenide nanoparticles were then extended in the presence of commercial TiO2 (P25) to prepare silver selenide-titania nanocomposites with different Ag/Ti ratios.	metal selenide	50-64	tubulin polymerization promoting protein	Homo sapiens	134-137
27123779-3	2016	The reactions leading to in situ formation of the metal selenide nanoparticles were then extended in the presence of commercial TiO2 (P25) to prepare silver selenide-titania nanocomposites with different Ag/Ti ratios.	titanium dioxide	128-132	tubulin polymerization promoting protein	Homo sapiens	134-137
27123779-3	2016	The reactions leading to in situ formation of the metal selenide nanoparticles were then extended in the presence of commercial TiO2 (P25) to prepare silver selenide-titania nanocomposites with different Ag/Ti ratios.	Silver selenide	150-165	tubulin polymerization promoting protein	Homo sapiens	134-137
27123779-5	2016	The xAg2 Se-TiO2 nanocomposites (x=0.01, 0.13 and 0.25 mol %) exhibited a much higher catalytic activity as compared to P25, which is an established benchmark for the photocatalysis under UV light, and retained a good photocatalytic stability after recycling for several times.	se-tio2	9-16	tubulin polymerization promoting protein	Homo sapiens	120-123
27279916-4	2016	Moreover, doxorubicin (DOX)-loaded liposome nanoparticles were modified with peptide P51 or P25 and demonstrated to improve the targeted delivery against HER2 positive cells.	Doxorubicin	10-21	tubulin polymerization promoting protein	Homo sapiens	92-95
27279916-4	2016	Moreover, doxorubicin (DOX)-loaded liposome nanoparticles were modified with peptide P51 or P25 and demonstrated to improve the targeted delivery against HER2 positive cells.	Doxorubicin	23-26	tubulin polymerization promoting protein	Homo sapiens	92-95
27483763-0	2016	Low Frequency Ultrasonication of Degussa P25 TiO2 and Its Superior Photocatalytic Properties.	titanium dioxide	45-49	tubulin polymerization promoting protein	Homo sapiens	41-44
27483763-1	2016	We report the simple and effective method for enhancing the photocatalytic properties of Degussa P25 TiO2 by low frequency ultrasonication.	titanium dioxide	101-105	tubulin polymerization promoting protein	Homo sapiens	97-100
27483763-7	2016	The degradation efficiency was estimated to be 86% for ultrasonicated TiO2, which is higher as compared to 40% of P25.	titanium dioxide	70-74	tubulin polymerization promoting protein	Homo sapiens	114-117
26891152-2	2016	P25 is composed of anatase, rutile, and amorphous TiO2 particles, and photoexcited electron transfer and subsequent charge separation at the anatase-rutile particle interfaces explain its high photocatalytic efficiency.	titanium dioxide	50-54	tubulin polymerization promoting protein	Homo sapiens	0-3
26891152-3	2016	Herein, we report on a facile and rational hydrothermal treatment of P25 to selectively convert the amorphous component into crystalline TiO2 , which is deposited between the original anatase and rutile particles to increase the particle interfaces and thus enhance charge separation.	titanium dioxide	137-141	tubulin polymerization promoting protein	Homo sapiens	69-72
26745514-4	2016	Here, we fabricated MS-TiO2 and NS-TiO2, both of which were incorporated with the TiO2 nanoparticles (P25) to constitute the hybrid photoanode of dye-sensitized solar cells (DSSCs), and explored the effect of the lateral size (nano- and micro-) of ultrathin TiO2 nanosheets on their electron transfer and diffusion properties.	titanium dioxide	23-27	tubulin polymerization promoting protein	Homo sapiens	102-105
26745514-4	2016	Here, we fabricated MS-TiO2 and NS-TiO2, both of which were incorporated with the TiO2 nanoparticles (P25) to constitute the hybrid photoanode of dye-sensitized solar cells (DSSCs), and explored the effect of the lateral size (nano- and micro-) of ultrathin TiO2 nanosheets on their electron transfer and diffusion properties.	Nitrogen	32-34	tubulin polymerization promoting protein	Homo sapiens	102-105
26745514-4	2016	Here, we fabricated MS-TiO2 and NS-TiO2, both of which were incorporated with the TiO2 nanoparticles (P25) to constitute the hybrid photoanode of dye-sensitized solar cells (DSSCs), and explored the effect of the lateral size (nano- and micro-) of ultrathin TiO2 nanosheets on their electron transfer and diffusion properties.	titanium dioxide	35-39	tubulin polymerization promoting protein	Homo sapiens	102-105
26745514-4	2016	Here, we fabricated MS-TiO2 and NS-TiO2, both of which were incorporated with the TiO2 nanoparticles (P25) to constitute the hybrid photoanode of dye-sensitized solar cells (DSSCs), and explored the effect of the lateral size (nano- and micro-) of ultrathin TiO2 nanosheets on their electron transfer and diffusion properties.	titanium dioxide	35-39	tubulin polymerization promoting protein	Homo sapiens	102-105
26745514-5	2016	Benefiting from the faster electron transfer rate and short diffusion path of the MS-TiO2, the MS-TiO2/P25 gains the more superior performance compared to pure P25 and NS-TiO2/P25 in the application of DSSCs.	titanium dioxide	85-89	tubulin polymerization promoting protein	Homo sapiens	103-106
26745514-5	2016	Benefiting from the faster electron transfer rate and short diffusion path of the MS-TiO2, the MS-TiO2/P25 gains the more superior performance compared to pure P25 and NS-TiO2/P25 in the application of DSSCs.	titanium dioxide	85-89	tubulin polymerization promoting protein	Homo sapiens	160-163
26745514-5	2016	Benefiting from the faster electron transfer rate and short diffusion path of the MS-TiO2, the MS-TiO2/P25 gains the more superior performance compared to pure P25 and NS-TiO2/P25 in the application of DSSCs.	titanium dioxide	85-89	tubulin polymerization promoting protein	Homo sapiens	160-163
26745514-5	2016	Benefiting from the faster electron transfer rate and short diffusion path of the MS-TiO2, the MS-TiO2/P25 gains the more superior performance compared to pure P25 and NS-TiO2/P25 in the application of DSSCs.	titanium dioxide	98-102	tubulin polymerization promoting protein	Homo sapiens	103-106
26745514-5	2016	Benefiting from the faster electron transfer rate and short diffusion path of the MS-TiO2, the MS-TiO2/P25 gains the more superior performance compared to pure P25 and NS-TiO2/P25 in the application of DSSCs.	titanium dioxide	98-102	tubulin polymerization promoting protein	Homo sapiens	160-163
26745514-5	2016	Benefiting from the faster electron transfer rate and short diffusion path of the MS-TiO2, the MS-TiO2/P25 gains the more superior performance compared to pure P25 and NS-TiO2/P25 in the application of DSSCs.	titanium dioxide	98-102	tubulin polymerization promoting protein	Homo sapiens	160-163
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	Gold	16-18	tubulin polymerization promoting protein	Homo sapiens	49-55
26610195-3	2016	The photocatalytic degradation of p-aminobenzoic acid was carried out under 180 min of constant radiation and the results were compared with P25 as commercial catalyst.	4-Aminobenzoic Acid	34-53	tubulin polymerization promoting protein	Homo sapiens	141-144
26610195-6	2016	In both systems, a pseudo first order reaction was found to provide the best correlations, with constant rates of 2.0 x 10(-2) min(-1) and 2.4 x 10(-2) min(-1) for TiO2 nanowires and P25, respectively.	titanium dioxide	164-168	tubulin polymerization promoting protein	Homo sapiens	183-186
26753809-1	2016	Removal of Cr(VI) and citric acid (Cit) by heterogeneous photocatalytic Cr(VI) transformation under UV light over two commercial TiO2 samples (1 g L(-1)), Evonik P25 and Hombikat UV100, was studied at pH 2 and Cr(VI) concentrations between 0.2 and 3 mM, with a fixed [Cit]0/[Cr(VI)]0 molar ratio (MR) of 2.5.	Citric Acid	35-38	tubulin polymerization promoting protein	Homo sapiens	162-165
26753809-5	2016	Both kinetic experiments and TRMC measurements confirm that UV100 is not only more efficient than P25 for Cr(VI) and Cit removal, but it is also less influenced by the poisoning of the surface, consistent with its larger specific area.	Chromium	106-108	tubulin polymerization promoting protein	Homo sapiens	98-101
26753809-5	2016	Both kinetic experiments and TRMC measurements confirm that UV100 is not only more efficient than P25 for Cr(VI) and Cit removal, but it is also less influenced by the poisoning of the surface, consistent with its larger specific area.	Citric Acid	117-120	tubulin polymerization promoting protein	Homo sapiens	98-101
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	Gold	16-18	tubulin polymerization promoting protein	Homo sapiens	225-231
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	titanium dioxide	43-47	tubulin polymerization promoting protein	Homo sapiens	49-55
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	titanium dioxide	43-47	tubulin polymerization promoting protein	Homo sapiens	225-231
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	formic acid	127-138	tubulin polymerization promoting protein	Homo sapiens	49-55
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	formic acid	127-138	tubulin polymerization promoting protein	Homo sapiens	225-231
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	Water	142-147	tubulin polymerization promoting protein	Homo sapiens	49-55
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	Water	142-147	tubulin polymerization promoting protein	Homo sapiens	225-231
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	Gold	49-51	tubulin polymerization promoting protein	Homo sapiens	225-231
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	titanium dioxide	335-339	tubulin polymerization promoting protein	Homo sapiens	49-55
26607027-1	2016	The activity of Au nanoparticle-loaded P25 TiO2 (Au/P25) plasmonic photocatalysts, evaluated by the oxidative decomposition of formic acid in water under visible light irradiation, was enhanced up to 3 times by simply mixing Au/P25 with photocatalytically inactive h-BN nanosheets as a result of electron transfer from photoexcited Au/TiO2 to the h-BN nanosheets and retardation of the charge recombination.	6-bromo-2-naphthyl sulfate	267-269	tubulin polymerization promoting protein	Homo sapiens	49-55
26249156-4	2016	The median of serum Cd was 1.9 mug/L (P25-P75:1.1-2.9).	Cadmium	20-22	tubulin polymerization promoting protein	Homo sapiens	38-41
27078958-3	2016	The results showed that in the P25 catalysis process, simulated natural light could degrade ASA into As (V) by oxidation.	Arsanilic Acid	92-95	tubulin polymerization promoting protein	Homo sapiens	31-34
27078958-7	2016	Hydroxide radical played a major role in photocatalytic oxidation of ASA by P25.	hydroxide radical	0-17	tubulin polymerization promoting protein	Homo sapiens	76-79
27078958-7	2016	Hydroxide radical played a major role in photocatalytic oxidation of ASA by P25.	Arsanilic Acid	69-72	tubulin polymerization promoting protein	Homo sapiens	76-79
26310518-7	2015	Due to the synergistic effect derived from TiO2 nanoparticles and carbon fibers, the obtained peapod-like TiO2 /carbon cannot only deliver a high specific capacity of 160 mAh g(-1) over 500 cycles in LIBs, but also perform a much faster photodegradation rate than bare TiO2 and P25.	titanium dioxide	106-110	tubulin polymerization promoting protein	Homo sapiens	278-281
30460282-3	2016	MWNTs were mixed with P25 to form an under-layer of the photoanode to improve the electron transmission ability of the photoanode.	photoanode	56-66	tubulin polymerization promoting protein	Homo sapiens	22-25
30460282-3	2016	MWNTs were mixed with P25 to form an under-layer of the photoanode to improve the electron transmission ability of the photoanode.	photoanode	119-129	tubulin polymerization promoting protein	Homo sapiens	22-25
30460282-5	2016	Graphical Abstract: A bi-layer composite photoanode based on P25/MWNTs-THSs with improved light scattering and electron transmission, which will provide a new insight into fabrication and structure design of highly efficient dye-sensitized solar cells.	photoanode	41-51	tubulin polymerization promoting protein	Homo sapiens	61-64
30460282-5	2016	Graphical Abstract: A bi-layer composite photoanode based on P25/MWNTs-THSs with improved light scattering and electron transmission, which will provide a new insight into fabrication and structure design of highly efficient dye-sensitized solar cells.	thss	71-75	tubulin polymerization promoting protein	Homo sapiens	61-64
30460282-1	2016	Abstract: A bi-layer photoanode for dye-sensitized solar cell (DSSC) was fabricated, in which TiO2 hollow spheres (THSs) were designed as a scattering layer and P25/multi-walled carbon nanotubes (MWNTs) as an under-layer.	photoanode	21-31	tubulin polymerization promoting protein	Homo sapiens	161-164
26734533-3	2015	This paper investigates the effect of aggregate size on the photocatalytic activity of pyrogenic titania (Aeroxide( ) P25, Evonik), which is widely used in fundamental photocatalysis research.	pyrogenic titania (aeroxide	87-114	tubulin polymerization promoting protein	Homo sapiens	118-121
26310518-7	2015	Due to the synergistic effect derived from TiO2 nanoparticles and carbon fibers, the obtained peapod-like TiO2 /carbon cannot only deliver a high specific capacity of 160 mAh g(-1) over 500 cycles in LIBs, but also perform a much faster photodegradation rate than bare TiO2 and P25.	Carbon	112-118	tubulin polymerization promoting protein	Homo sapiens	278-281
26310518-7	2015	Due to the synergistic effect derived from TiO2 nanoparticles and carbon fibers, the obtained peapod-like TiO2 /carbon cannot only deliver a high specific capacity of 160 mAh g(-1) over 500 cycles in LIBs, but also perform a much faster photodegradation rate than bare TiO2 and P25.	titanium dioxide	106-110	tubulin polymerization promoting protein	Homo sapiens	278-281
26149082-1	2015	A photocatalyst consisting of nanostructured Pd photochemically deposited on 20 nm TiO2 displays a reaction half-life for rhodamine b decolourisation of 0.5 minute compared to the 9.4 minutes for unmodified P25 under identical reaction conditions.	Palladium	45-47	tubulin polymerization promoting protein	Homo sapiens	207-210
26470013-1	2015	Currently, Degussa P25, with the typical mixed phases of anatase and rutile TiO2, is widely applied as the commercial photocatalysts.	titanium dioxide	76-80	tubulin polymerization promoting protein	Homo sapiens	19-22
26470013-6	2015	As compared to P25, the as-fabricated mesoporous TiO2 hollow fibers exhibited much higher efficient photocatalytic activities and stabilities toward the hydrogen evolution with a rate of ~499.1 mumol g(-1) h(-1) and ~99.5% degradation Rhodamine B (RhB) in 60 min, suggesting their promising application in efficient photocatalysts.	titanium dioxide	49-53	tubulin polymerization promoting protein	Homo sapiens	15-18
26149082-1	2015	A photocatalyst consisting of nanostructured Pd photochemically deposited on 20 nm TiO2 displays a reaction half-life for rhodamine b decolourisation of 0.5 minute compared to the 9.4 minutes for unmodified P25 under identical reaction conditions.	titanium dioxide	83-87	tubulin polymerization promoting protein	Homo sapiens	207-210
26149082-1	2015	A photocatalyst consisting of nanostructured Pd photochemically deposited on 20 nm TiO2 displays a reaction half-life for rhodamine b decolourisation of 0.5 minute compared to the 9.4 minutes for unmodified P25 under identical reaction conditions.	rhodamine B	122-133	tubulin polymerization promoting protein	Homo sapiens	207-210
27885321-1	2015	The generation of reactive species in titanium dioxide (TiO2) nanoparticle photocatalysis was assessed in a laboratory scale setup, in which P25 Aeroxide TiO2 suspensions were photoactivated by means of UV-A radiation.	titanium dioxide	38-54	tubulin polymerization promoting protein	Homo sapiens	141-144
26040745-7	2015	The tricrystalline TiO2 prepared at RHNO3=0.8, containing 80.7% anatase, 15.6% brookite and 3.7% rutile, exhibited the highest photocatalytic activity, about 3.85-fold higher than that of P25.	tricrystalline	4-18	tubulin polymerization promoting protein	Homo sapiens	188-191
26040745-7	2015	The tricrystalline TiO2 prepared at RHNO3=0.8, containing 80.7% anatase, 15.6% brookite and 3.7% rutile, exhibited the highest photocatalytic activity, about 3.85-fold higher than that of P25.	titanium dioxide	19-23	tubulin polymerization promoting protein	Homo sapiens	188-191
26373161-6	2015	Decomposition rate on TiO2 powder (P-25) was 1.5 times higher than that of the prepared TiO2 powder.	titanium dioxide	22-26	tubulin polymerization promoting protein	Homo sapiens	35-39
25746194-2	2015	For comparison, AgI sensitized TiO2 (amorphous, anatase and P25) were also prepared via traditional deposition-precipitation method.	titanium dioxide	31-35	tubulin polymerization promoting protein	Homo sapiens	60-63
25746194-8	2015	The estimated k(Cr(VI)) on AgI/Am-TiO2-S was about 2 times that on AgI/P25-TiO2 in the absence/presence of RhB.	Chromium	16-18	tubulin polymerization promoting protein	Homo sapiens	71-74
25746194-8	2015	The estimated k(Cr(VI)) on AgI/Am-TiO2-S was about 2 times that on AgI/P25-TiO2 in the absence/presence of RhB.	am-tio2-s	31-40	tubulin polymerization promoting protein	Homo sapiens	71-74
25746194-8	2015	The estimated k(Cr(VI)) on AgI/Am-TiO2-S was about 2 times that on AgI/P25-TiO2 in the absence/presence of RhB.	titanium dioxide	34-38	tubulin polymerization promoting protein	Homo sapiens	71-74
25770822-9	2015	Incident photon-to-current efficiencies (IPCE) of the DSSCs were dramatically improved by employing the photoanodes composed of a mixture of P25 and LR-700 but impedance analysis indicated that P25/LR-700 mixed cells have resistances similar to the standard P25 reference cell.	photoanodes	104-115	tubulin polymerization promoting protein	Homo sapiens	141-144
25770822-9	2015	Incident photon-to-current efficiencies (IPCE) of the DSSCs were dramatically improved by employing the photoanodes composed of a mixture of P25 and LR-700 but impedance analysis indicated that P25/LR-700 mixed cells have resistances similar to the standard P25 reference cell.	photoanodes	104-115	tubulin polymerization promoting protein	Homo sapiens	194-197
25770822-9	2015	Incident photon-to-current efficiencies (IPCE) of the DSSCs were dramatically improved by employing the photoanodes composed of a mixture of P25 and LR-700 but impedance analysis indicated that P25/LR-700 mixed cells have resistances similar to the standard P25 reference cell.	photoanodes	104-115	tubulin polymerization promoting protein	Homo sapiens	194-197
27885321-1	2015	The generation of reactive species in titanium dioxide (TiO2) nanoparticle photocatalysis was assessed in a laboratory scale setup, in which P25 Aeroxide TiO2 suspensions were photoactivated by means of UV-A radiation.	titanium dioxide	56-60	tubulin polymerization promoting protein	Homo sapiens	141-144
27885321-1	2015	The generation of reactive species in titanium dioxide (TiO2) nanoparticle photocatalysis was assessed in a laboratory scale setup, in which P25 Aeroxide TiO2 suspensions were photoactivated by means of UV-A radiation.	titanium dioxide	154-158	tubulin polymerization promoting protein	Homo sapiens	141-144
25597682-4	2015	It was observed that the anatase TiO2 synthesized in 15 mol/L CH3COOH solution exhibited the highest photodegradation rate of gaseous toluene (94%), exceeding that of P25 (44%) by a factor of more than two.	titanium dioxide	33-37	tubulin polymerization promoting protein	Homo sapiens	167-170
25785791-6	2015	The removal of surface thiol ligands from the Au NCs is crucial to catalyze nitrobenzene hydrogenation, where only calcined Au/HAP and Au/P25 exhibited good catalytic activity.	Gold	46-48	tubulin polymerization promoting protein	Homo sapiens	135-141
25785791-6	2015	The removal of surface thiol ligands from the Au NCs is crucial to catalyze nitrobenzene hydrogenation, where only calcined Au/HAP and Au/P25 exhibited good catalytic activity.	nitrobenzene	76-88	tubulin polymerization promoting protein	Homo sapiens	135-141
25514364-6	2015	A 2014, 2, 12247-12254), the C2H2-TiO2 reaction has been monitored, essentially by Fourier transform infrared spectroscopy, at the surface of P25 (a mixture of anatase and rutile, typical benchmark material in the field of photocatalysis) in order to elucidate the nature of the products of this surface reaction.	Acetylene	29-33	tubulin polymerization promoting protein	Homo sapiens	142-145
25514364-6	2015	A 2014, 2, 12247-12254), the C2H2-TiO2 reaction has been monitored, essentially by Fourier transform infrared spectroscopy, at the surface of P25 (a mixture of anatase and rutile, typical benchmark material in the field of photocatalysis) in order to elucidate the nature of the products of this surface reaction.	titanium dioxide	34-38	tubulin polymerization promoting protein	Homo sapiens	142-145
25785791-6	2015	The removal of surface thiol ligands from the Au NCs is crucial to catalyze nitrobenzene hydrogenation, where only calcined Au/HAP and Au/P25 exhibited good catalytic activity.	Sulfhydryl Compounds	23-28	tubulin polymerization promoting protein	Homo sapiens	135-141
25600889-5	2015	The optimized F-TiO2-NiO NP anode (10 mum thick) achieved a power conversion efficiency of 8.20%, which is 26% and 47% higher than pristine flower-like TiO2 and commercially available P25 anodes, respectively.	f-tio2-nio np	14-27	tubulin polymerization promoting protein	Homo sapiens	184-187
25600889-5	2015	The optimized F-TiO2-NiO NP anode (10 mum thick) achieved a power conversion efficiency of 8.20%, which is 26% and 47% higher than pristine flower-like TiO2 and commercially available P25 anodes, respectively.	titanium dioxide	16-20	tubulin polymerization promoting protein	Homo sapiens	184-187
25056748-7	2015	The highest removal efficiencies were achieved with the dose of 1 g l(-1) of TiO2 (Degussa P-25) and in the acidic pH region.	titanium dioxide	77-81	tubulin polymerization promoting protein	Homo sapiens	91-95
25597682-7	2015	The anatase TiO2 synthesized in 15 mol/L CH3COOH solution was more tolerant to moisture than the other TiO2 nanocrystals and P25.	titanium dioxide	12-16	tubulin polymerization promoting protein	Homo sapiens	125-128
26328349-1	2015	Nano-structured photocatalyst P25 was electrochemically hydrogenated through being immersed in 0.01 M NaOH solution to act as cathode to electrolyze water.	Sodium Hydroxide	102-106	tubulin polymerization promoting protein	Homo sapiens	30-33
26328349-1	2015	Nano-structured photocatalyst P25 was electrochemically hydrogenated through being immersed in 0.01 M NaOH solution to act as cathode to electrolyze water.	Water	149-154	tubulin polymerization promoting protein	Homo sapiens	30-33
26328349-3	2015	XPS spectra analyses were conducted and the photocurrent was measured, which indicate the formation of Ti3+ and oxygen vacancies, and increased separation efficiency of photoactivated electrons and holes in electrochemically hydrogenated P25.	titanium (III)	103-107	tubulin polymerization promoting protein	Homo sapiens	238-241
26328349-3	2015	XPS spectra analyses were conducted and the photocurrent was measured, which indicate the formation of Ti3+ and oxygen vacancies, and increased separation efficiency of photoactivated electrons and holes in electrochemically hydrogenated P25.	Oxygen	112-118	tubulin polymerization promoting protein	Homo sapiens	238-241
25331759-1	2014	A novel thin-layer photoelectrochemical flow cell allowing the online mass spectrometric detection of volatile reaction products during photoelectrocatalytic reactions has been developed and applied for separating the contributions from photoelectrochemical water splitting and photoelectrooxidation of formic acid to the overall photocurrent in formic acid containing aqueous solution, using a nanocrystalline TiO2 (P25) thin-film electrode.	formic acid	303-314	tubulin polymerization promoting protein	Homo sapiens	417-420
25112911-2	2014	TiO2 nanoparticle (Degussa P25) was dispersed into the prepared sol to toughen the formed gel.	titanium dioxide	0-4	tubulin polymerization promoting protein	Homo sapiens	27-30
26328389-1	2015	The effect of titanium dioxide nanoparticles (nano-TiO2 Degussa p25) treatment of human lung epithelial cells (BEAS-2B) was examined by analyzing changes in messenger [mRNA] and microRNA [miRNA].	titanium dioxide	14-30	tubulin polymerization promoting protein	Homo sapiens	64-67
26328389-1	2015	The effect of titanium dioxide nanoparticles (nano-TiO2 Degussa p25) treatment of human lung epithelial cells (BEAS-2B) was examined by analyzing changes in messenger [mRNA] and microRNA [miRNA].	titanium dioxide	51-55	tubulin polymerization promoting protein	Homo sapiens	64-67
25280047-5	2014	When used to decompose a model contaminant herbicide, 2,4-dichlorophenoxyacetic acid (2,4-D), monitored by both UV/Vis and total organic carbon (TOC) analysis, 10% Fe-TiO2 -H2 O displayed a remarkable enhancement of more than 200 % in the kinetics of complete mineralisation in comparison to the commercial material P25 TiO2 photocatalyst.	2,4-Dichlorophenoxyacetic Acid	54-84	tubulin polymerization promoting protein	Homo sapiens	316-319
25280047-5	2014	When used to decompose a model contaminant herbicide, 2,4-dichlorophenoxyacetic acid (2,4-D), monitored by both UV/Vis and total organic carbon (TOC) analysis, 10% Fe-TiO2 -H2 O displayed a remarkable enhancement of more than 200 % in the kinetics of complete mineralisation in comparison to the commercial material P25 TiO2 photocatalyst.	2,4-Dichlorophenoxyacetic Acid	86-91	tubulin polymerization promoting protein	Homo sapiens	316-319
25329687-3	2014	This photocatalytic behavior is completely different from that measured for Au/P25 (hydrogen evolution) and Cu/P25 (lower activity, but similar methane selectivity).	Hydrogen	84-92	tubulin polymerization promoting protein	Homo sapiens	76-82
25329687-3	2014	This photocatalytic behavior is completely different from that measured for Au/P25 (hydrogen evolution) and Cu/P25 (lower activity, but similar methane selectivity).	Methane	144-151	tubulin polymerization promoting protein	Homo sapiens	76-82
25188017-6	2014	All the CuFe(1-x)Cr(x)S2 (0 &lt;= x &lt;= 0.4) samples show considerably higher photocatalytic activities than P25 toward the reduction of nitrate ions in aqueous solution.	Nitrates	139-146	tubulin polymerization promoting protein	Homo sapiens	111-114
25407313-4	2014	As a proof of concept, the as-fabricated mesoporous TiO2 fibers exhibit much higher photocatalytic activity and stability than both the conventional solid counterparts and the commercially available P25.	titanium dioxide	52-56	tubulin polymerization promoting protein	Homo sapiens	199-202
25391987-3	2014	In this study, we establish a quick and facile method for obtaining self-doping TiO2 with the use of directly treated commercial P25 at a desired temperature for only 5 min through spark plasma sintering technology.	titanium dioxide	80-84	tubulin polymerization promoting protein	Homo sapiens	129-132
25391987-6	2014	The photodegradation and H2 evolution rates of this samples are significantly higher than those of unmodified P25 sample under visible-light irradiation.	Hydrogen	25-27	tubulin polymerization promoting protein	Homo sapiens	110-113
25112911-5	2014	The sols with and without P25 nanoparticle were subsequently dip-coated on a support with average pore size of 150nm, thus formed a mesoporous membrane layer after drying and sintering processes.	3,5-diisopropylsalicylic acid	61-64	tubulin polymerization promoting protein	Homo sapiens	26-29
24848377-3	2014	Decomposition tests using methylene blue indicated that the chain-network anatase/TiO2 (B) mixed-phase film had a photocatalytic half-life that was 0.84 and 0.69 times shorter than those of as-prepared anatase TiO2 and P25, respectively.	titanium dioxide	82-86	tubulin polymerization promoting protein	Homo sapiens	219-222
25153700-4	2014	In our study on degradation of organic pollutants (methylene blue), the contribution of the photothermal effect caused by a nanocomposite consisting of P25 and reduced graphene oxide can be as high as ~38% in addition to trapping and shuttling photogenerated electrons and increasing both light absorption and pollutant adsorptivity.	Methylene Blue	51-65	tubulin polymerization promoting protein	Homo sapiens	152-155
25153700-4	2014	In our study on degradation of organic pollutants (methylene blue), the contribution of the photothermal effect caused by a nanocomposite consisting of P25 and reduced graphene oxide can be as high as ~38% in addition to trapping and shuttling photogenerated electrons and increasing both light absorption and pollutant adsorptivity.	graphene oxide	168-182	tubulin polymerization promoting protein	Homo sapiens	152-155
25140917-8	2014	Compared with the state-of-the-art photocatalyst, commercial Degussa P25 TiO2, the as-prepared TiO2 microsphere catalyst has demonstrated significant enhancement in photodriven conversion of CO2 into the end product CH4.	titanium dioxide	73-77	tubulin polymerization promoting protein	Homo sapiens	69-72
25140917-8	2014	Compared with the state-of-the-art photocatalyst, commercial Degussa P25 TiO2, the as-prepared TiO2 microsphere catalyst has demonstrated significant enhancement in photodriven conversion of CO2 into the end product CH4.	titanium dioxide	95-99	tubulin polymerization promoting protein	Homo sapiens	69-72
25140917-8	2014	Compared with the state-of-the-art photocatalyst, commercial Degussa P25 TiO2, the as-prepared TiO2 microsphere catalyst has demonstrated significant enhancement in photodriven conversion of CO2 into the end product CH4.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	191-194	tubulin polymerization promoting protein	Homo sapiens	69-72
25145176-3	2014	Platinum-doped catalyst showed the best results in hydrogen generation, also producing methane, ethene and ethane, whereas the best oxygen production was exhibited by P25, followed by copper--and cobalt-containing photocatalysts.	Platinum	0-8	tubulin polymerization promoting protein	Homo sapiens	167-170
25145176-3	2014	Platinum-doped catalyst showed the best results in hydrogen generation, also producing methane, ethene and ethane, whereas the best oxygen production was exhibited by P25, followed by copper--and cobalt-containing photocatalysts.	Oxygen	132-138	tubulin polymerization promoting protein	Homo sapiens	167-170
28344237-5	2014	Each sample was employed as photoanode and tested in the water splitting reaction by recording I-V curves and comparing the results with commercial P25 powders.	Water	57-62	tubulin polymerization promoting protein	Homo sapiens	148-151
25055874-6	2014	It demonstrated that Y(IO3)3 exhibits highly efficient photocatalytic activity, which is much better than those of commercial TiO2 (P25) and important UV photocatalysts BiOCl and BiIO4.	titanium dioxide	126-130	tubulin polymerization promoting protein	Homo sapiens	132-135
24698721-0	2014	Photocatalytic decomposition of bromate ion by the UV/P25-Graphene processes.	Bromates	32-39	tubulin polymerization promoting protein	Homo sapiens	54-57
24698721-0	2014	Photocatalytic decomposition of bromate ion by the UV/P25-Graphene processes.	Graphite	58-66	tubulin polymerization promoting protein	Homo sapiens	54-57
24698721-2	2014	In this work, TiO2-graphene composite (P25-GR) photocatalyst for BrO3(-) reduction were prepared by a facile one-step hydrothermal method, which exhibited a higher capacity of BrO3(-) removal than P25 or GR did.	tio2-graphene	14-27	tubulin polymerization promoting protein	Homo sapiens	39-42
24698721-2	2014	In this work, TiO2-graphene composite (P25-GR) photocatalyst for BrO3(-) reduction were prepared by a facile one-step hydrothermal method, which exhibited a higher capacity of BrO3(-) removal than P25 or GR did.	tio2-graphene	14-27	tubulin polymerization promoting protein	Homo sapiens	197-200
24698721-2	2014	In this work, TiO2-graphene composite (P25-GR) photocatalyst for BrO3(-) reduction were prepared by a facile one-step hydrothermal method, which exhibited a higher capacity of BrO3(-) removal than P25 or GR did.	bro3	65-69	tubulin polymerization promoting protein	Homo sapiens	39-42
24698721-2	2014	In this work, TiO2-graphene composite (P25-GR) photocatalyst for BrO3(-) reduction were prepared by a facile one-step hydrothermal method, which exhibited a higher capacity of BrO3(-) removal than P25 or GR did.	bro3	65-69	tubulin polymerization promoting protein	Homo sapiens	197-200
24698721-6	2014	Furthermore, the improvement of BrO3(-) reduction on P25-GR was observed in the treatment of a tap water.	Water	99-104	tubulin polymerization promoting protein	Homo sapiens	53-56
24525258-4	2014	20 wt% ZnO-TiO2 photocatalyst exhibited much higher photocatalytic activity than pure TiO2, ZnO and P-25 in the degradation of 4-chlorophenol under low UV irradiation.	Zinc Oxide	7-10	tubulin polymerization promoting protein	Homo sapiens	100-104
24525258-4	2014	20 wt% ZnO-TiO2 photocatalyst exhibited much higher photocatalytic activity than pure TiO2, ZnO and P-25 in the degradation of 4-chlorophenol under low UV irradiation.	titanium dioxide	11-15	tubulin polymerization promoting protein	Homo sapiens	100-104
24525258-4	2014	20 wt% ZnO-TiO2 photocatalyst exhibited much higher photocatalytic activity than pure TiO2, ZnO and P-25 in the degradation of 4-chlorophenol under low UV irradiation.	4-chlorophenol	127-141	tubulin polymerization promoting protein	Homo sapiens	100-104
24525258-7	2014	It was concluded that in the case of 20 wt% ZnO-TiO2 catalyst, the main intermediates of degradation were phenol, 2-chlorophenol, hydroquinone and catechol, while with P-25 the main intermediates were ring-opening products, suggesting that different reaction mechanisms may have taken place depending on the nature of the catalyst.	zno-tio2	44-52	tubulin polymerization promoting protein	Homo sapiens	168-172
24525258-7	2014	It was concluded that in the case of 20 wt% ZnO-TiO2 catalyst, the main intermediates of degradation were phenol, 2-chlorophenol, hydroquinone and catechol, while with P-25 the main intermediates were ring-opening products, suggesting that different reaction mechanisms may have taken place depending on the nature of the catalyst.	Phenol	106-112	tubulin polymerization promoting protein	Homo sapiens	168-172
24626818-3	2014	Furthermore, the TiO2 mesocrystals were applied in photoelectrochemical (PEC) water splitting and demonstrated much enhanced photocurrent, almost 191% and 274% compared with that of TiO2 single crystals and commercial P25, respectively.	titanium dioxide	17-21	tubulin polymerization promoting protein	Homo sapiens	218-221
24567234-3	2014	Devices constructed using the N719 dye and iodide/triiodide as the redox mediator in the electrolyte yielded energy conversion efficiencies (eta = 6.1 +- 0.2%), which were marginally lower than for devices made with the commonly used P25 titania films (eta = 6.3 +- 0.1%) under one sun simulated solar radiation.	Iodides	43-49	tubulin polymerization promoting protein	Homo sapiens	234-237
23888349-7	2014	The synthetic TiO2/KAl(SO4)2 presented better photocatalytic degradation of acetaminophen than commercially available Degussa P-25.	Acetaminophen	76-89	tubulin polymerization promoting protein	Homo sapiens	126-130
24468963-7	2014	As a result, by using an anatase TiO2 mesocrystal film as a scattering overlayer of a compact commercial P25 TiO2 nanoparticle film, the double layered DSSCs show a power conversion efficiency of 7.23%, indicating a great improvement compared to the DSSCs based on a P25 film (5.39%) and anatase TiO2 mesocrystal films, respectively.	titanium dioxide	33-37	tubulin polymerization promoting protein	Homo sapiens	105-108
24468963-7	2014	As a result, by using an anatase TiO2 mesocrystal film as a scattering overlayer of a compact commercial P25 TiO2 nanoparticle film, the double layered DSSCs show a power conversion efficiency of 7.23%, indicating a great improvement compared to the DSSCs based on a P25 film (5.39%) and anatase TiO2 mesocrystal films, respectively.	titanium dioxide	33-37	tubulin polymerization promoting protein	Homo sapiens	267-270
24468963-7	2014	As a result, by using an anatase TiO2 mesocrystal film as a scattering overlayer of a compact commercial P25 TiO2 nanoparticle film, the double layered DSSCs show a power conversion efficiency of 7.23%, indicating a great improvement compared to the DSSCs based on a P25 film (5.39%) and anatase TiO2 mesocrystal films, respectively.	titanium dioxide	109-113	tubulin polymerization promoting protein	Homo sapiens	105-108
24468963-7	2014	As a result, by using an anatase TiO2 mesocrystal film as a scattering overlayer of a compact commercial P25 TiO2 nanoparticle film, the double layered DSSCs show a power conversion efficiency of 7.23%, indicating a great improvement compared to the DSSCs based on a P25 film (5.39%) and anatase TiO2 mesocrystal films, respectively.	titanium dioxide	109-113	tubulin polymerization promoting protein	Homo sapiens	267-270
24418494-4	2014	Photo-degradation results revealed that RE-doped samples could greatly improve the photocatalytic activity, and the experimental degradation rates of methyl orange (MO) were higher than that catalyzed by undoped samples and Degussa P-25, obeyed the order of Nd(3+)&gt;La(3+)&gt;Y(3+).	methyl orange	150-163	tubulin polymerization promoting protein	Homo sapiens	232-236
24600881-5	2014	Titanium dioxide Degussa P25 was found to be more efficient as compared with other two commercially available TiO2 powders like Hombikat UV100 and PC500 from Millennium Inorganic Chemicals.	titanium dioxide	0-16	tubulin polymerization promoting protein	Homo sapiens	25-28
24056863-8	2013	As a result, the BiPO4-rGO composite exhibited superior photocatalytic activity to BiPO4 and P25, about 4.3 times that of BiPO4 and 6.9 times that of P25.	bipo4	17-22	tubulin polymerization promoting protein	Homo sapiens	93-96
24305040-5	2013	The NFTSs exhibited 20.1% higher photocatalytic speed compared to P25 on the degradation of methylene orange.	methylene orange	92-108	tubulin polymerization promoting protein	Homo sapiens	66-69
24367997-5	2014	After calcination at 500  C, the regular shape of a-SMSs was still maintained, while the a-SMSs turned into anatase submicrometer sheets (c-SMSs), which exhibited higher activity than commercial P25 in photodegradation of rhodamine B.	rhodamine B	222-233	tubulin polymerization promoting protein	Homo sapiens	195-198
24056863-8	2013	As a result, the BiPO4-rGO composite exhibited superior photocatalytic activity to BiPO4 and P25, about 4.3 times that of BiPO4 and 6.9 times that of P25.	bipo4	17-22	tubulin polymerization promoting protein	Homo sapiens	150-153
23959254-4	2013	Composites prepared in the presence of different amounts of GO all exhibit higher photocatalytic activity than pure TiO2 mesocrystals and P25, the composite obtained by using 20mg GO presents the most uniform TiO2 mesocrystals in the composite and shows the highest photocatalytic efficiency.	graphene oxide	60-62	tubulin polymerization promoting protein	Homo sapiens	138-141
24145581-3	2013	We synthesized a novel type of anatase-type TiO2-C hybrid aerogel by a one-pot sol-gel method, which shows a photocatalytic activity for methylene degradation up to 4.23 times that of P25, a commercial photocatalyst from Degussa Inc.	tio2-c	44-50	tubulin polymerization promoting protein	Homo sapiens	184-187
23970328-2	2013	Using commercial P25 as the photoanode, a high PCE of 7.81% was achieved with a pyridyl iodide-containing electrolyte.	photoanode	28-38	tubulin polymerization promoting protein	Homo sapiens	17-20
23970328-2	2013	Using commercial P25 as the photoanode, a high PCE of 7.81% was achieved with a pyridyl iodide-containing electrolyte.	pyridyl iodide	80-94	tubulin polymerization promoting protein	Homo sapiens	17-20
23893071-7	2013	On the merits of their porous structure and related high specific surface area, the mesoporous TiO2 spheres showed a higher photocatalytic activity than P25 for the oxidative photo-destruction of NOx gas.	titanium dioxide	95-99	tubulin polymerization promoting protein	Homo sapiens	153-156
23549423-5	2013	When the photocatalytic properties of m-Pt-WO3 nanohybrids were systematically investigated, it was revealed that the m-Pt-WO3 nanohybrids showed great promise for degrading the organic dye under visible light irradiation, which shows an excellent photocatalytic activity that far exceeded those of pure phase mesoporous WO3 and commercial TiO2 (P25), and was 10-fold more active than that of the bulk Pt-WO3 catalyst.	m-pt	38-42	tubulin polymerization promoting protein	Homo sapiens	346-349
23778170-2	2013	Absorption and fluorescence spectral studies have been employed to investigate the interaction of BPBI with the anatase, hombikat, P25 and rutile phases of TiO2.	bpbi	98-102	tubulin polymerization promoting protein	Homo sapiens	131-134
23778170-2	2013	Absorption and fluorescence spectral studies have been employed to investigate the interaction of BPBI with the anatase, hombikat, P25 and rutile phases of TiO2.	titanium dioxide	156-160	tubulin polymerization promoting protein	Homo sapiens	131-134
23778170-3	2013	The emission of the BPBI is efficiently quenched by anatase, hombikat and P25 TiO2 nanoparticles owing to charge injection from the excited singlet state of BPBI to the conduction band of the TiO2 nanoparticles.	bpbi	20-24	tubulin polymerization promoting protein	Homo sapiens	74-77
23778170-3	2013	The emission of the BPBI is efficiently quenched by anatase, hombikat and P25 TiO2 nanoparticles owing to charge injection from the excited singlet state of BPBI to the conduction band of the TiO2 nanoparticles.	titanium dioxide	78-82	tubulin polymerization promoting protein	Homo sapiens	74-77
23778170-3	2013	The emission of the BPBI is efficiently quenched by anatase, hombikat and P25 TiO2 nanoparticles owing to charge injection from the excited singlet state of BPBI to the conduction band of the TiO2 nanoparticles.	bpbi	157-161	tubulin polymerization promoting protein	Homo sapiens	74-77
23778170-3	2013	The emission of the BPBI is efficiently quenched by anatase, hombikat and P25 TiO2 nanoparticles owing to charge injection from the excited singlet state of BPBI to the conduction band of the TiO2 nanoparticles.	titanium dioxide	192-196	tubulin polymerization promoting protein	Homo sapiens	74-77
23549423-5	2013	When the photocatalytic properties of m-Pt-WO3 nanohybrids were systematically investigated, it was revealed that the m-Pt-WO3 nanohybrids showed great promise for degrading the organic dye under visible light irradiation, which shows an excellent photocatalytic activity that far exceeded those of pure phase mesoporous WO3 and commercial TiO2 (P25), and was 10-fold more active than that of the bulk Pt-WO3 catalyst.	wo3	43-46	tubulin polymerization promoting protein	Homo sapiens	346-349
23549423-5	2013	When the photocatalytic properties of m-Pt-WO3 nanohybrids were systematically investigated, it was revealed that the m-Pt-WO3 nanohybrids showed great promise for degrading the organic dye under visible light irradiation, which shows an excellent photocatalytic activity that far exceeded those of pure phase mesoporous WO3 and commercial TiO2 (P25), and was 10-fold more active than that of the bulk Pt-WO3 catalyst.	titanium dioxide	340-344	tubulin polymerization promoting protein	Homo sapiens	346-349
23549423-5	2013	When the photocatalytic properties of m-Pt-WO3 nanohybrids were systematically investigated, it was revealed that the m-Pt-WO3 nanohybrids showed great promise for degrading the organic dye under visible light irradiation, which shows an excellent photocatalytic activity that far exceeded those of pure phase mesoporous WO3 and commercial TiO2 (P25), and was 10-fold more active than that of the bulk Pt-WO3 catalyst.	Platinum	40-42	tubulin polymerization promoting protein	Homo sapiens	346-349
23557605-3	2013	The TiO2/rGO hybrid flakes were finally employed to evaluate its photocatalytic activity, and it was found that the ability to achieve hydrogen production and dye degradation was greater than that of a hybridized material from commercial p25-TiO2 and large rGO.	titanium dioxide	4-8	tubulin polymerization promoting protein	Homo sapiens	238-241
24191478-4	2013	When treated with 1 mg m(-3) cyclohexanone at a relatively humidity of 18%, the adsorption amount on microporous TiO2 was 5.4-7.9 times higher than that on P25.	(-3) cyclohexanone	24-42	tubulin polymerization promoting protein	Homo sapiens	156-159
24191478-6	2013	The advantage of microporous TiO2 over P25 became more pronounced when the residence time declined from 0.072 to 0.036 s. Moreover, as the concentration of cyclohexanone deceased from 1000 ppb to 500 ppb, removal efficiency by microporous TiO2 increased more rapidly than P25.	titanium dioxide	29-33	tubulin polymerization promoting protein	Homo sapiens	272-275
24191478-6	2013	The advantage of microporous TiO2 over P25 became more pronounced when the residence time declined from 0.072 to 0.036 s. Moreover, as the concentration of cyclohexanone deceased from 1000 ppb to 500 ppb, removal efficiency by microporous TiO2 increased more rapidly than P25.	cyclohexanone	156-169	tubulin polymerization promoting protein	Homo sapiens	39-42
24191478-6	2013	The advantage of microporous TiO2 over P25 became more pronounced when the residence time declined from 0.072 to 0.036 s. Moreover, as the concentration of cyclohexanone deceased from 1000 ppb to 500 ppb, removal efficiency by microporous TiO2 increased more rapidly than P25.	cyclohexanone	156-169	tubulin polymerization promoting protein	Homo sapiens	272-275
24191478-6	2013	The advantage of microporous TiO2 over P25 became more pronounced when the residence time declined from 0.072 to 0.036 s. Moreover, as the concentration of cyclohexanone deceased from 1000 ppb to 500 ppb, removal efficiency by microporous TiO2 increased more rapidly than P25.	titanium dioxide	239-243	tubulin polymerization promoting protein	Homo sapiens	39-42
23407148-3	2013	Photocatalytic evaluation demonstrated that the as-synthesized TiO2 nanoparticles possess excellent quinoline degradation performance (a 2.33x10(-2)min(-1) apparent reaction rate constant comparing to 1.22x10(-2)min(-1) for P25) and recycle stability (the photocatalytic activity remained 96.6% of the initial activity after four cycles of repetitive uses).	titanium dioxide	63-67	tubulin polymerization promoting protein	Homo sapiens	224-227
23407148-3	2013	Photocatalytic evaluation demonstrated that the as-synthesized TiO2 nanoparticles possess excellent quinoline degradation performance (a 2.33x10(-2)min(-1) apparent reaction rate constant comparing to 1.22x10(-2)min(-1) for P25) and recycle stability (the photocatalytic activity remained 96.6% of the initial activity after four cycles of repetitive uses).	quinoline	100-109	tubulin polymerization promoting protein	Homo sapiens	224-227
23422577-13	2013	The percentage of subjects with low PA level or below of the P25 was 25.9% for males and 26.3% for females.	Protactinium	36-38	tubulin polymerization promoting protein	Homo sapiens	61-64
24426336-2	2013	We want to present a case of IHES with chromosomal mosaicism for inversion of chromosome 3(p25, p26), who achieved complete remission after treatment with Imatinib and short course of prednisolone.	Imatinib Mesylate	155-163	tubulin polymerization promoting protein	Homo sapiens	91-94
24426336-2	2013	We want to present a case of IHES with chromosomal mosaicism for inversion of chromosome 3(p25, p26), who achieved complete remission after treatment with Imatinib and short course of prednisolone.	Prednisolone	184-196	tubulin polymerization promoting protein	Homo sapiens	91-94
23755694-5	2013	It was observed that N-doped TiO2 demonstrated much higher photocatalytic performance than commercial TiO2 (P-25) and exhibited excellent reusability.	titanium dioxide	29-33	tubulin polymerization promoting protein	Homo sapiens	108-112
23755694-5	2013	It was observed that N-doped TiO2 demonstrated much higher photocatalytic performance than commercial TiO2 (P-25) and exhibited excellent reusability.	titanium dioxide	102-106	tubulin polymerization promoting protein	Homo sapiens	108-112
22326478-0	2012	Multiple roles of heparin in the aggregation of p25alpha.	Heparin	18-25	tubulin polymerization promoting protein	Homo sapiens	48-56
22326478-4	2012	Heparin, polyglutamate, arachidonic acid micelles, and RNA all induce p25alpha aggregation.	Heparin	0-7	tubulin polymerization promoting protein	Homo sapiens	70-78
22326478-4	2012	Heparin, polyglutamate, arachidonic acid micelles, and RNA all induce p25alpha aggregation.	Polyglutamic Acid	9-22	tubulin polymerization promoting protein	Homo sapiens	70-78
22326478-4	2012	Heparin, polyglutamate, arachidonic acid micelles, and RNA all induce p25alpha aggregation.	Arachidonic Acid	24-40	tubulin polymerization promoting protein	Homo sapiens	70-78
22326478-6	2012	Bona fide fibrils are only formed at intermediate heparin concentrations, possibly because an excess of heparin binding sites blocks the inter-p25alpha contacts required for amyloid formation.	Heparin	104-111	tubulin polymerization promoting protein	Homo sapiens	143-151
22326478-10	2012	We are able to reproduce these observations in a model involving two levels of binding of p25alpha to heparin.	Heparin	102-109	tubulin polymerization promoting protein	Homo sapiens	90-98
22497717-4	2012	The as-synthesized TiO(2) nanorod-decorated graphene sheets showed unprecedented photodecomposition efficiency compared to the pristine TiO(2) nanorods and the commercial TiO(2) (P-25, Degussa) under visible-light.	titanium dioxide	19-25	tubulin polymerization promoting protein	Homo sapiens	179-183
22644137-2	2012	The as-prepared porous spheres, with a pore-size of around 7 nm and a large specific surface area of 132 m(2) g(-1), show superior photocatalytic hydrogen production activity over P25 and commercial-Ta(2)O(5).	Hydrogen	146-154	tubulin polymerization promoting protein	Homo sapiens	180-183
22484033-6	2012	RESULTS: The dimerization of TPPP/p25 is promoted by elevation of the protein concentration and by GTP addition.	Guanosine Triphosphate	99-102	tubulin polymerization promoting protein	Homo sapiens	29-37
22484033-9	2012	A mathematical model elaborated for the multiple equilibrium of the TPPP/p25-GTP system was validated by fitting the GTP-dependent changes of ellipticity and fluorescence signal in the course of TPPP/p25 titrations.	Guanosine Triphosphate	77-80	tubulin polymerization promoting protein	Homo sapiens	68-76
22484033-9	2012	A mathematical model elaborated for the multiple equilibrium of the TPPP/p25-GTP system was validated by fitting the GTP-dependent changes of ellipticity and fluorescence signal in the course of TPPP/p25 titrations.	Guanosine Triphosphate	77-80	tubulin polymerization promoting protein	Homo sapiens	195-203
22484033-10	2012	The evaluation of the equilibrium constants rendered it possible to determine the thermodynamic parameters of the association of different TPPP/p25 forms with GTP from ITC measurements.	Guanosine Triphosphate	159-162	tubulin polymerization promoting protein	Homo sapiens	144-147
22497717-4	2012	The as-synthesized TiO(2) nanorod-decorated graphene sheets showed unprecedented photodecomposition efficiency compared to the pristine TiO(2) nanorods and the commercial TiO(2) (P-25, Degussa) under visible-light.	Graphite	44-52	tubulin polymerization promoting protein	Homo sapiens	179-183
22852357-5	2012	TiO2 photoanodes including TiO2-grafted MWNT (TiO2-MWNT/P25) enhanced the cell efficiencies by ca.	tio2 photoanodes	0-16	tubulin polymerization promoting protein	Homo sapiens	46-59
22852357-5	2012	TiO2 photoanodes including TiO2-grafted MWNT (TiO2-MWNT/P25) enhanced the cell efficiencies by ca.	titanium dioxide	0-4	tubulin polymerization promoting protein	Homo sapiens	46-59
22264584-0	2012	P25-graphene hydrogels: room-temperature synthesis and application for removal of methylene blue from aqueous solution.	Graphite	4-12	tubulin polymerization promoting protein	Homo sapiens	0-3
22226716-6	2012	The formaldehyde uptake capacity by hectorite-TiO(2) was 4.1 times higher than that of P25, almost twice the BET surface area ratio.	Formaldehyde	4-16	tubulin polymerization promoting protein	Homo sapiens	87-90
22284914-1	2012	Ca alginate polymer fibers were developed to effectively disperse and stabilize an efficient photocatalyst such as AEROXIDE( ) TiO(2) P25 in their matrix.	ca alginate polymer	0-19	tubulin polymerization promoting protein	Homo sapiens	134-137
22284914-6	2012	The corresponding value (at 60 muM MO) for the porous sc-CO(2) dried fibers was 140 min over 240 min for the AEROXIDE( ) TiO(2) P25 as documented in the literature.	co(2)	57-62	tubulin polymerization promoting protein	Homo sapiens	128-131
22284914-6	2012	The corresponding value (at 60 muM MO) for the porous sc-CO(2) dried fibers was 140 min over 240 min for the AEROXIDE( ) TiO(2) P25 as documented in the literature.	aeroxide( )	109-120	tubulin polymerization promoting protein	Homo sapiens	128-131
22264584-0	2012	P25-graphene hydrogels: room-temperature synthesis and application for removal of methylene blue from aqueous solution.	Methylene Blue	82-96	tubulin polymerization promoting protein	Homo sapiens	0-3
22264584-1	2012	Herein we report a room-temperature synthesis of chemically bonded TiO2 (P25)-graphene composite hydrogels and their use as high performance visible light photocatalysts.	Graphite	78-86	tubulin polymerization promoting protein	Homo sapiens	73-76
22264584-2	2012	The three-dimensional (3D) TiO2-carbon composite exhibits a significant enhancement in the reaction rate in the decontamination of methylene blue, compared to the bare P25.	titanium dioxide	27-31	tubulin polymerization promoting protein	Homo sapiens	168-171
22264584-2	2012	The three-dimensional (3D) TiO2-carbon composite exhibits a significant enhancement in the reaction rate in the decontamination of methylene blue, compared to the bare P25.	Carbon	32-38	tubulin polymerization promoting protein	Homo sapiens	168-171
22264584-2	2012	The three-dimensional (3D) TiO2-carbon composite exhibits a significant enhancement in the reaction rate in the decontamination of methylene blue, compared to the bare P25.	Methylene Blue	131-145	tubulin polymerization promoting protein	Homo sapiens	168-171
22264584-3	2012	The 3D P25-graphene hydrogel is much easier to prepare and apply as a macroscopic device, compared to the 2D P25-graphene sheets.	Graphite	11-19	tubulin polymerization promoting protein	Homo sapiens	7-10
22264584-5	2012	As a kind of the novel 3D graphene-based composite, the obtained high performance P25-graphene gel could be widely used in the environmental protection issues.	Graphite	26-34	tubulin polymerization promoting protein	Homo sapiens	82-85
22264584-5	2012	As a kind of the novel 3D graphene-based composite, the obtained high performance P25-graphene gel could be widely used in the environmental protection issues.	Graphite	86-94	tubulin polymerization promoting protein	Homo sapiens	82-85
22103195-1	2011	This paper reports the photocatalytic activities of titanate nanotubes (TNTs) synthesized using different methods and compares them with that of P25.	titanium(4+)	52-60	tubulin polymerization promoting protein	Homo sapiens	145-148
22209274-2	2012	The experiments were carried out in batch reactor (a solar UV-light simulator) with Degussa P-25 titanium dioxide (TiO2).	titanium dioxide	97-113	tubulin polymerization promoting protein	Homo sapiens	92-96
22193983-1	2012	Dye-sensitized solar cells (DSSCs) were prepared by capitalizing on a TiO(2) bilayer structure composed of P-25 nanoparticles and freestanding crystalline nanotube arrays as photoanodes.	tio(2) bilayer	70-84	tubulin polymerization promoting protein	Homo sapiens	107-111
21684791-5	2012	The Pt-GO-TiO2 catalyst degraded DBS at a higher rate than P-25 (TiO2), prepared TiO2 or GO-TiO2 photocatalysts.	titanium dioxide	65-69	tubulin polymerization promoting protein	Homo sapiens	59-63
21684791-6	2012	The mineralization of DBS was enhanced by a factor of 3 using Pt-GO-TiO2 compared to the P-25 (TiO2).	dbs	22-25	tubulin polymerization promoting protein	Homo sapiens	89-93
22730683-6	2012	The median of urinary 1-hydroxypyrene levels in pregnant women of Taiyuan was 1.140 microg/mmolCr, (P25 was 0.457 microg/mmolCr, P75 was 2.678 microg/mmolCr), the median of urinary 1-hydroxypyrene levels in pregnant women of Changzhi was 0.761 microg/mmolCr, (P25 was 0.133 microg/mmolCr, P75 was 2.095 microg/mmolCr).	1-hydroxypyrene	22-37	tubulin polymerization promoting protein	Homo sapiens	260-263
21784107-5	2011	Furthermore, both developmental thiamine deficiencies and ethanol exposure produce two waves of neurofunctional alterations, peaking at P15 (postnatal day 15) and P25, respectively.	Thiamine	32-40	tubulin polymerization promoting protein	Homo sapiens	163-166
21784107-5	2011	Furthermore, both developmental thiamine deficiencies and ethanol exposure produce two waves of neurofunctional alterations, peaking at P15 (postnatal day 15) and P25, respectively.	Ethanol	58-65	tubulin polymerization promoting protein	Homo sapiens	163-166
21836325-4	2011	Compared with P-25, the nanotubes showed higher photocatalytic degradation of rhodamine B and water splitting efficiency.	rhodamine B	78-89	tubulin polymerization promoting protein	Homo sapiens	14-18
21836325-4	2011	Compared with P-25, the nanotubes showed higher photocatalytic degradation of rhodamine B and water splitting efficiency.	Water	94-99	tubulin polymerization promoting protein	Homo sapiens	14-18
20972494-5	2010	It was observed that beta-Bi(2)O(3) displayed much higher photocatalytic performance than N-doped P25.	beta-bi(2)o(3)	21-35	tubulin polymerization promoting protein	Homo sapiens	98-101
21552575-5	2011	The photocatalytic oxidation rate of gas-phase acetone over C(60)/TiO(2) nanocomposites is greater than that over pure TiO(2), commercial Degussa P25 (P25) and C(60)-TiO(2) counterparts prepared by simple impregnating mixing.	Acetone	47-54	tubulin polymerization promoting protein	Homo sapiens	146-149
21552575-5	2011	The photocatalytic oxidation rate of gas-phase acetone over C(60)/TiO(2) nanocomposites is greater than that over pure TiO(2), commercial Degussa P25 (P25) and C(60)-TiO(2) counterparts prepared by simple impregnating mixing.	Acetone	47-54	tubulin polymerization promoting protein	Homo sapiens	151-154
21381175-7	2011	On the other hand, under UV light, undoped TiO(2) shows a very good photonic efficiency, which is more than three times that for commercial photocatalyst, P-25 (Evonik-Degussa); however, addition of RuO(2) suppresses the photonic efficiency of TiO(2).	titanium dioxide	43-49	tubulin polymerization promoting protein	Homo sapiens	155-159
21381175-7	2011	On the other hand, under UV light, undoped TiO(2) shows a very good photonic efficiency, which is more than three times that for commercial photocatalyst, P-25 (Evonik-Degussa); however, addition of RuO(2) suppresses the photonic efficiency of TiO(2).	tio	43-46	tubulin polymerization promoting protein	Homo sapiens	155-159
21410154-1	2011	In this work, we report that RhB and NO could be effectively removed under visible light with hollow In(OH)xSy nanocubes fabricated at a low temperature of 80  C. The photocatalytic experiments revealed that these low temperature synthesized hollow In(OH)xSy nanocubes were more efficient than P25 and In(OH)xSy counterpart hydrothermally synthesized at 180  C (In(OH)xSy-180).	rhb	29-32	tubulin polymerization promoting protein	Homo sapiens	294-297
21316364-0	2011	Disordered TPPP/p25 binds GTP and displays Mg2+-dependent GTPase activity.	Guanosine Triphosphate	26-29	tubulin polymerization promoting protein	Homo sapiens	11-19
21316364-0	2011	Disordered TPPP/p25 binds GTP and displays Mg2+-dependent GTPase activity.	magnesium ion	43-47	tubulin polymerization promoting protein	Homo sapiens	11-19
21316364-3	2011	We showed by affinity chromatography, fluorescence spectroscopy and circular dichroism that GTP binds to TPPP/p25 likely within the flexible region; neither positions nor intensities of the peaks in the assigned terminals were affected by GTP.	Guanosine Triphosphate	92-95	tubulin polymerization promoting protein	Homo sapiens	105-113
21316364-4	2011	In addition, we demonstrated that TPPP/p25 specifically hydrolyses GTP in an Mg(2+)-dependent manner.	Guanosine Triphosphate	67-70	tubulin polymerization promoting protein	Homo sapiens	34-42
21316364-4	2011	In addition, we demonstrated that TPPP/p25 specifically hydrolyses GTP in an Mg(2+)-dependent manner.	magnesium ion	77-83	tubulin polymerization promoting protein	Homo sapiens	34-42
21182589-0	2011	P25alpha / TPPP expression increases plasma membrane presentation of the dopamine transporter and enhances cellular sensitivity to dopamine toxicity.	Dopamine	73-81	tubulin polymerization promoting protein	Homo sapiens	0-8
21182589-0	2011	P25alpha / TPPP expression increases plasma membrane presentation of the dopamine transporter and enhances cellular sensitivity to dopamine toxicity.	Dopamine	73-81	tubulin polymerization promoting protein	Homo sapiens	11-15
21182589-5	2011	Here we show that co-expression of the dopamine transporter with p25alpha in HEK-293-MSR cells increases dopamine uptake via increased plasma membrane presentation of the transporter.	Dopamine	39-47	tubulin polymerization promoting protein	Homo sapiens	65-73
21182589-7	2011	Truncations of the p25alpha peptide revealed that the requirement for stimulating dopamine uptake is located in the central core and were similar to those required for vesicle binding.	Dopamine	82-90	tubulin polymerization promoting protein	Homo sapiens	19-27
21182589-9	2011	Neuronal expression of p25alpha thus holds the potential to sensitize the cells toward dopamine and toxins carried by the dopamine transporter.	Dopamine	87-95	tubulin polymerization promoting protein	Homo sapiens	23-31
21211901-1	2011	The present study is focused on influences of parameters including pH, temperature, TiO(2) catalyst concentration, and reactant concentration on the rate of photocatalytic diethyl phosphoramidate (DEPA) decomposition with Hombikat UV 100 (HK) and Degussa P25 (P25) TiO(2).	Diethyl phosphoramidate	172-195	tubulin polymerization promoting protein	Homo sapiens	255-258
21211901-1	2011	The present study is focused on influences of parameters including pH, temperature, TiO(2) catalyst concentration, and reactant concentration on the rate of photocatalytic diethyl phosphoramidate (DEPA) decomposition with Hombikat UV 100 (HK) and Degussa P25 (P25) TiO(2).	Diethyl phosphoramidate	172-195	tubulin polymerization promoting protein	Homo sapiens	260-263
21211901-1	2011	The present study is focused on influences of parameters including pH, temperature, TiO(2) catalyst concentration, and reactant concentration on the rate of photocatalytic diethyl phosphoramidate (DEPA) decomposition with Hombikat UV 100 (HK) and Degussa P25 (P25) TiO(2).	N,N-diethylphenylacetamide	197-201	tubulin polymerization promoting protein	Homo sapiens	255-258
21211901-1	2011	The present study is focused on influences of parameters including pH, temperature, TiO(2) catalyst concentration, and reactant concentration on the rate of photocatalytic diethyl phosphoramidate (DEPA) decomposition with Hombikat UV 100 (HK) and Degussa P25 (P25) TiO(2).	N,N-diethylphenylacetamide	197-201	tubulin polymerization promoting protein	Homo sapiens	260-263
21211901-5	2011	The maximum rate is observed for P25 at DEPA concentration 1.3 mM whereas the rate grows continuously with DEPA concentration rise for HK.	N,N-diethylphenylacetamide	40-44	tubulin polymerization promoting protein	Homo sapiens	33-36
21211901-6	2011	The temperature dependence of TC decomposition rate in the range of 15-63 C with both HK and P25 follows the Arrhenius equation.	Technetium	30-32	tubulin polymerization promoting protein	Homo sapiens	93-96
21211901-7	2011	The activation energy for total carbon decomposition with HK and P25 are 29.5+-1.0 and 24.3+-3.1 kJ/mol, respectively.	Carbon	32-38	tubulin polymerization promoting protein	Homo sapiens	65-68
21211901-9	2011	The rate over P25 increases faster than that with HK for each unit of the titania added when the TiO(2) concentration is less than 375 mg/l.	titanium dioxide	97-103	tubulin polymerization promoting protein	Homo sapiens	14-17
21347308-5	2011	Conditioning right S1 by electrical median nerve (MN) stimulation of the left MN (CS) resulted in a significant reduction of the N20 response in the target (left) S1 relative to a test stimulus (TS) to the right MN alone when the interstimulus interval between CS and TS was between 20 and 25 ms. No such changes were observed for later cortical components such as the N20/P25, N30, P40 and N60 amplitude.	Cesium	82-84	tubulin polymerization promoting protein	Homo sapiens	373-376
20957621-3	2010	The Bi-doped mesoporous TiO(2) (ms-TiO(2)) samples exhibit improved photocatalytic activities for simultaneous phenol oxidation and chromium reduction in aqueous suspension under visible and UV light over the pure ms-TiO(2), P-25, and conventional Bi-doped titania.	Bismuth	4-7	tubulin polymerization promoting protein	Homo sapiens	225-229
20957621-3	2010	The Bi-doped mesoporous TiO(2) (ms-TiO(2)) samples exhibit improved photocatalytic activities for simultaneous phenol oxidation and chromium reduction in aqueous suspension under visible and UV light over the pure ms-TiO(2), P-25, and conventional Bi-doped titania.	mesoporous tio	13-27	tubulin polymerization promoting protein	Homo sapiens	225-229
20957621-3	2010	The Bi-doped mesoporous TiO(2) (ms-TiO(2)) samples exhibit improved photocatalytic activities for simultaneous phenol oxidation and chromium reduction in aqueous suspension under visible and UV light over the pure ms-TiO(2), P-25, and conventional Bi-doped titania.	ms-tio	32-38	tubulin polymerization promoting protein	Homo sapiens	225-229
20957621-3	2010	The Bi-doped mesoporous TiO(2) (ms-TiO(2)) samples exhibit improved photocatalytic activities for simultaneous phenol oxidation and chromium reduction in aqueous suspension under visible and UV light over the pure ms-TiO(2), P-25, and conventional Bi-doped titania.	tio	24-27	tubulin polymerization promoting protein	Homo sapiens	225-229
20181427-5	2010	The sample synthesized at 140 degrees C and 4h (HM140) exhibits the best photocatalytic activity; it has a reaction rate constant (k(app)) of 1.42 min(-1), much higher than that of P25 (k(app)=0.13 min(-1)).	4h	44-46	tubulin polymerization promoting protein	Homo sapiens	181-184
21322225-5	2010	Their visible photodegradation activities of rhodamine B appear much higher than that of P-25.	rhodamine B	45-56	tubulin polymerization promoting protein	Homo sapiens	89-93
20849899-5	2010	Moreover, phosphorylation of alpha-SYN at Ser-129 facilitated the TPPP-mediated alpha-SYN oligomerization.	Serine	42-45	tubulin polymerization promoting protein	Homo sapiens	66-70
20578684-3	2010	In a comparison of BiPO(4) with that of TiO(2) (P25, Degussa), it is found that the photocatalytic activity of BiPO(4) is twice that of TiO(2) (P25, Degussa) for the degradation of methylene blue (MB) dye, while the BET surface of BiPO(4) is just one tenth of that of P25.	bipo	111-115	tubulin polymerization promoting protein	Homo sapiens	48-51
20578684-3	2010	In a comparison of BiPO(4) with that of TiO(2) (P25, Degussa), it is found that the photocatalytic activity of BiPO(4) is twice that of TiO(2) (P25, Degussa) for the degradation of methylene blue (MB) dye, while the BET surface of BiPO(4) is just one tenth of that of P25.	bipo	111-115	tubulin polymerization promoting protein	Homo sapiens	144-147
20578684-3	2010	In a comparison of BiPO(4) with that of TiO(2) (P25, Degussa), it is found that the photocatalytic activity of BiPO(4) is twice that of TiO(2) (P25, Degussa) for the degradation of methylene blue (MB) dye, while the BET surface of BiPO(4) is just one tenth of that of P25.	bipo	111-115	tubulin polymerization promoting protein	Homo sapiens	144-147
20578684-3	2010	In a comparison of BiPO(4) with that of TiO(2) (P25, Degussa), it is found that the photocatalytic activity of BiPO(4) is twice that of TiO(2) (P25, Degussa) for the degradation of methylene blue (MB) dye, while the BET surface of BiPO(4) is just one tenth of that of P25.	bipo	111-115	tubulin polymerization promoting protein	Homo sapiens	48-51
20578684-3	2010	In a comparison of BiPO(4) with that of TiO(2) (P25, Degussa), it is found that the photocatalytic activity of BiPO(4) is twice that of TiO(2) (P25, Degussa) for the degradation of methylene blue (MB) dye, while the BET surface of BiPO(4) is just one tenth of that of P25.	bipo	111-115	tubulin polymerization promoting protein	Homo sapiens	144-147
20578684-3	2010	In a comparison of BiPO(4) with that of TiO(2) (P25, Degussa), it is found that the photocatalytic activity of BiPO(4) is twice that of TiO(2) (P25, Degussa) for the degradation of methylene blue (MB) dye, while the BET surface of BiPO(4) is just one tenth of that of P25.	bipo	111-115	tubulin polymerization promoting protein	Homo sapiens	144-147
20617836-4	2010	Finally, the synthesized mesoporous TiO(2) film is modified by adding P25 nanoparticles, which act as scattering centers and function as active binders to prevent formation of microcracks.	mesoporous	25-35	tubulin polymerization promoting protein	Homo sapiens	70-73
20617836-4	2010	Finally, the synthesized mesoporous TiO(2) film is modified by adding P25 nanoparticles, which act as scattering centers and function as active binders to prevent formation of microcracks.	titanium dioxide	36-42	tubulin polymerization promoting protein	Homo sapiens	70-73
20655540-2	2010	Surprisingly, it exhibits the very high photocatalytic activity and good stability for the decomposition of methyl orange (MO) compared to that of P25.	methyl orange	108-121	tubulin polymerization promoting protein	Homo sapiens	147-150
20181427-6	2010	For an irradiation time of 720 min, the mineralization yields of benzene were 48% and 11% for HM140 and P25, respectively.	Benzene	65-72	tubulin polymerization promoting protein	Homo sapiens	104-107
20181427-7	2010	Based on the short-term decrease of benzene concentration and the long-term increase of CO(2) concentration, the photocatalytic ability of the HM140 sample is significantly superior to that of P25.	co(2)	88-93	tubulin polymerization promoting protein	Homo sapiens	193-196
20227088-8	2010	At pH 1 the anatase suspension was found to be significantly more photo-active in bleaching methyl orange than P25 at exposure times up to 1.5 h. The photo-activity after 1.5 h was found to be 29% higher than the best catalyst prepared by calcining the same titanate nanotube starting material.	titanium(4+)	258-266	tubulin polymerization promoting protein	Homo sapiens	111-114
20308065-3	2010	Here we demonstrated that the expression of TPPP/p25 in HeLa cells, in doxycycline-inducible CHO10 cells, and in the oligodendrocyte CG-4 cells promoted the acetylation of alpha-tubulin at residue Lys-40, whereas its down-regulation by specific small interfering RNA in CG-4 cells or by the withdrawal of doxycycline from CHO10 cells decreased the acetylation level of alpha-tubulin.	Doxycycline	71-82	tubulin polymerization promoting protein	Homo sapiens	44-52
20308065-3	2010	Here we demonstrated that the expression of TPPP/p25 in HeLa cells, in doxycycline-inducible CHO10 cells, and in the oligodendrocyte CG-4 cells promoted the acetylation of alpha-tubulin at residue Lys-40, whereas its down-regulation by specific small interfering RNA in CG-4 cells or by the withdrawal of doxycycline from CHO10 cells decreased the acetylation level of alpha-tubulin.	Lysine	197-200	tubulin polymerization promoting protein	Homo sapiens	44-52
20308065-3	2010	Here we demonstrated that the expression of TPPP/p25 in HeLa cells, in doxycycline-inducible CHO10 cells, and in the oligodendrocyte CG-4 cells promoted the acetylation of alpha-tubulin at residue Lys-40, whereas its down-regulation by specific small interfering RNA in CG-4 cells or by the withdrawal of doxycycline from CHO10 cells decreased the acetylation level of alpha-tubulin.	Doxycycline	305-316	tubulin polymerization promoting protein	Homo sapiens	44-52
20432429-6	2010	The prepared nanocomposite hollow spheres exhibits a highly visible-light photocatalytic activity for photocatalytic degradation of RhB in water, and their photocatalytic activity is higher than that of pure TiO(2) and commercial Degussa P25 (P25) powders.	rhodamine B	132-135	tubulin polymerization promoting protein	Homo sapiens	238-241
20432429-6	2010	The prepared nanocomposite hollow spheres exhibits a highly visible-light photocatalytic activity for photocatalytic degradation of RhB in water, and their photocatalytic activity is higher than that of pure TiO(2) and commercial Degussa P25 (P25) powders.	rhodamine B	132-135	tubulin polymerization promoting protein	Homo sapiens	243-246
20432429-7	2010	Especially, the as-prepared Ag-TiO(2) nanocomposite hollow spheres at the nominal atomic ratio of silver to titanium (R) of 2 showed the highest photocatalytic activity, which exceeds that of P25 by a factor of more than 2.	ag-tio(2)	28-37	tubulin polymerization promoting protein	Homo sapiens	192-195
20432429-7	2010	Especially, the as-prepared Ag-TiO(2) nanocomposite hollow spheres at the nominal atomic ratio of silver to titanium (R) of 2 showed the highest photocatalytic activity, which exceeds that of P25 by a factor of more than 2.	Titanium	108-116	tubulin polymerization promoting protein	Homo sapiens	192-195
19394950-0	2009	TiO2 P-25 anatase rapid precipitation from water by use of struvite formation.	Water	43-48	tubulin polymerization promoting protein	Homo sapiens	5-9
20657461-7	2010	When the kinetics of mecoprop degradation was studied using UV light, more efficient were the undoped powders, while in the case of clopyralid, N-doped TiO(2) Degussa P25 powder was most efficient, which is probably a consequence of the difference in the molecular structure of the two herbicides.	n-doped tio	144-155	tubulin polymerization promoting protein	Homo sapiens	167-170
20041631-1	2010	Herein we obtained a chemically bonded TiO(2) (P25)-graphene nanocomposite photocatalyst with graphene oxide and P25, using a facile one-step hydrothermal method.	Graphite	52-60	tubulin polymerization promoting protein	Homo sapiens	47-50
20041631-1	2010	Herein we obtained a chemically bonded TiO(2) (P25)-graphene nanocomposite photocatalyst with graphene oxide and P25, using a facile one-step hydrothermal method.	Graphite	52-60	tubulin polymerization promoting protein	Homo sapiens	113-116
20041631-1	2010	Herein we obtained a chemically bonded TiO(2) (P25)-graphene nanocomposite photocatalyst with graphene oxide and P25, using a facile one-step hydrothermal method.	graphene oxide	94-108	tubulin polymerization promoting protein	Homo sapiens	47-50
20041631-2	2010	During the hydrothermal reaction, both of the reduction of graphene oxide and loading of P25 were achieved.	graphene oxide	59-73	tubulin polymerization promoting protein	Homo sapiens	89-92
20041631-3	2010	The as-prepared P25-graphene photocatalyst possessed great adsorptivity of dyes, extended light absorption range, and efficient charge separation properties simultaneously, which was rarely reported in other TiO(2)-carbon photocatalysts.	titanium dioxide	208-214	tubulin polymerization promoting protein	Homo sapiens	16-19
20041631-3	2010	The as-prepared P25-graphene photocatalyst possessed great adsorptivity of dyes, extended light absorption range, and efficient charge separation properties simultaneously, which was rarely reported in other TiO(2)-carbon photocatalysts.	Carbon	215-221	tubulin polymerization promoting protein	Homo sapiens	16-19
20041631-4	2010	Hence, in the photodegradation of methylene blue, a significant enhancement in the reaction rate was observed with P25-graphene, compared to the bare P25 and P25-CNTs with the same carbon content.	Methylene Blue	34-48	tubulin polymerization promoting protein	Homo sapiens	115-118
20041631-4	2010	Hence, in the photodegradation of methylene blue, a significant enhancement in the reaction rate was observed with P25-graphene, compared to the bare P25 and P25-CNTs with the same carbon content.	Methylene Blue	34-48	tubulin polymerization promoting protein	Homo sapiens	150-153
20041631-4	2010	Hence, in the photodegradation of methylene blue, a significant enhancement in the reaction rate was observed with P25-graphene, compared to the bare P25 and P25-CNTs with the same carbon content.	Methylene Blue	34-48	tubulin polymerization promoting protein	Homo sapiens	150-153
20041631-4	2010	Hence, in the photodegradation of methylene blue, a significant enhancement in the reaction rate was observed with P25-graphene, compared to the bare P25 and P25-CNTs with the same carbon content.	Graphite	118-127	tubulin polymerization promoting protein	Homo sapiens	150-153
20041631-4	2010	Hence, in the photodegradation of methylene blue, a significant enhancement in the reaction rate was observed with P25-graphene, compared to the bare P25 and P25-CNTs with the same carbon content.	Graphite	118-127	tubulin polymerization promoting protein	Homo sapiens	150-153
20041631-4	2010	Hence, in the photodegradation of methylene blue, a significant enhancement in the reaction rate was observed with P25-graphene, compared to the bare P25 and P25-CNTs with the same carbon content.	Carbon	181-187	tubulin polymerization promoting protein	Homo sapiens	115-118
19908471-2	2009	The results indicate that Au/TiO2 core-shell catalyst shows higher activity for the oxidation of acetaldehyde into CO2 under both UV and visible light irradiation comparing with P-25 and metal-deposited TiO2 photocatalysts.	Gold	26-28	tubulin polymerization promoting protein	Homo sapiens	178-182
19908471-2	2009	The results indicate that Au/TiO2 core-shell catalyst shows higher activity for the oxidation of acetaldehyde into CO2 under both UV and visible light irradiation comparing with P-25 and metal-deposited TiO2 photocatalysts.	titanium dioxide	29-33	tubulin polymerization promoting protein	Homo sapiens	178-182
19908471-2	2009	The results indicate that Au/TiO2 core-shell catalyst shows higher activity for the oxidation of acetaldehyde into CO2 under both UV and visible light irradiation comparing with P-25 and metal-deposited TiO2 photocatalysts.	Acetaldehyde	97-109	tubulin polymerization promoting protein	Homo sapiens	178-182
19908471-2	2009	The results indicate that Au/TiO2 core-shell catalyst shows higher activity for the oxidation of acetaldehyde into CO2 under both UV and visible light irradiation comparing with P-25 and metal-deposited TiO2 photocatalysts.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	115-118	tubulin polymerization promoting protein	Homo sapiens	178-182
19394950-1	2009	UV(360nm) irradiation of TiO(2) P-25 nanoparticle in water suspension is used for photocatalytic mineralization of pollutants or inactivation of microorganisms.	Water	53-58	tubulin polymerization promoting protein	Homo sapiens	32-36
20102768-9	2010	The results show that the SiO(2)-doped mesoporous TiO(2) have better activity than commercial P25.	sio(2)-doped mesoporous tio(2)	26-56	tubulin polymerization promoting protein	Homo sapiens	94-97
20102768-10	2010	Especially, the 15% SiO(2)-doped mesoporous TiO(2) exhibited much higher photocatalytic activity than P25 in a large range of calcination temperatures, even at 900 degrees C. The excellent photocatalytic activity of the samples can be attributed to the high anatase crystallinity, large specific surface area, preserved surface hydroxyl groups and mesoporous channels.	Silicon Dioxide	20-26	tubulin polymerization promoting protein	Homo sapiens	102-105
20102768-10	2010	Especially, the 15% SiO(2)-doped mesoporous TiO(2) exhibited much higher photocatalytic activity than P25 in a large range of calcination temperatures, even at 900 degrees C. The excellent photocatalytic activity of the samples can be attributed to the high anatase crystallinity, large specific surface area, preserved surface hydroxyl groups and mesoporous channels.	mesoporous tio	33-47	tubulin polymerization promoting protein	Homo sapiens	102-105
20038182-3	2010	The much higher photocataltyic activity of the microscale ZnO than P25 under UV-visible irradiation is attributed to the higher efficiency of generation, mobility, and separation of photoinduced electrons and holes.	Zinc Oxide	58-61	tubulin polymerization promoting protein	Homo sapiens	67-70
20038182-4	2010	The much higher visible photocataltyic activity of the microscale ZnO than P25 is due to the higher photosensitization efficiency of electron transfer from an excited dye to the conduction band of the microscale ZnO than that of P25.	Zinc Oxide	66-69	tubulin polymerization promoting protein	Homo sapiens	75-78
20038182-4	2010	The much higher visible photocataltyic activity of the microscale ZnO than P25 is due to the higher photosensitization efficiency of electron transfer from an excited dye to the conduction band of the microscale ZnO than that of P25.	Zinc Oxide	66-69	tubulin polymerization promoting protein	Homo sapiens	229-232
20038182-4	2010	The much higher visible photocataltyic activity of the microscale ZnO than P25 is due to the higher photosensitization efficiency of electron transfer from an excited dye to the conduction band of the microscale ZnO than that of P25.	Zinc Oxide	212-215	tubulin polymerization promoting protein	Homo sapiens	75-78
19709667-0	2009	Nanoporous polymer monoliths as adsorptive supports for robust photocatalyst of Degussa P25.	Polymers	11-18	tubulin polymerization promoting protein	Homo sapiens	88-91
19709667-1	2009	Nanoporous polymer monolith-supported Degussa P25 as adsorptive photocatalysts was successfully synthesized by a simple solvothermal polymerization of polymeric precursor in the presence of P25 fine powder.	Polymers	11-18	tubulin polymerization promoting protein	Homo sapiens	46-49
19709667-1	2009	Nanoporous polymer monolith-supported Degussa P25 as adsorptive photocatalysts was successfully synthesized by a simple solvothermal polymerization of polymeric precursor in the presence of P25 fine powder.	Polymers	11-18	tubulin polymerization promoting protein	Homo sapiens	190-193
19924970-1	2009	Visible light-induced degradation of rhodamine B (RhB) and eosin Y (EO) in a heterogeneous TiO(2) P-25/EO/RhB system was investigated in the present work.	rhodamine B	37-48	tubulin polymerization promoting protein	Homo sapiens	98-102
19924970-1	2009	Visible light-induced degradation of rhodamine B (RhB) and eosin Y (EO) in a heterogeneous TiO(2) P-25/EO/RhB system was investigated in the present work.	rhodamine B	50-53	tubulin polymerization promoting protein	Homo sapiens	98-102
19924970-1	2009	Visible light-induced degradation of rhodamine B (RhB) and eosin Y (EO) in a heterogeneous TiO(2) P-25/EO/RhB system was investigated in the present work.	Eosine Yellowish-(YS)	59-66	tubulin polymerization promoting protein	Homo sapiens	98-102
19924970-1	2009	Visible light-induced degradation of rhodamine B (RhB) and eosin Y (EO) in a heterogeneous TiO(2) P-25/EO/RhB system was investigated in the present work.	Eosine Yellowish-(YS)	68-70	tubulin polymerization promoting protein	Homo sapiens	98-102
19924970-2	2009	The results showed that the photodegradation of RhB is enhanced significantly when EO is introduced into the P-25/RhB system.	rhodamine B	48-51	tubulin polymerization promoting protein	Homo sapiens	109-113
19924970-2	2009	The results showed that the photodegradation of RhB is enhanced significantly when EO is introduced into the P-25/RhB system.	Eosine Yellowish-(YS)	83-85	tubulin polymerization promoting protein	Homo sapiens	109-113
19924970-2	2009	The results showed that the photodegradation of RhB is enhanced significantly when EO is introduced into the P-25/RhB system.	rhodamine B	114-117	tubulin polymerization promoting protein	Homo sapiens	109-113
19924970-3	2009	Under optimal conditions (50 mg P-25, 20 mg L(-1) EO), RhB (4 mg L(-1)) almost decomposed completely after 35 min of visible light irradiation, though EO was photodegraded simultaneously.	rhodamine B	55-58	tubulin polymerization promoting protein	Homo sapiens	32-36
19924970-8	2009	Furthermore, except for the dye-sensitized photodegradation on the P-25 surface, reaction in bulk solution also occurs in this system, leading to effective photodegradation of RhB.	rhodamine B	176-179	tubulin polymerization promoting protein	Homo sapiens	67-71
19272705-3	2009	The photocatalytic activities of hybrid photocatalysts in decomposing toluene are 1.33 times as high as pure P25 at the net weight loading of 0.49 mg/cm(2) under the test condition.	Toluene	70-77	tubulin polymerization promoting protein	Homo sapiens	109-112
19272705-6	2009	It is evidenced that the reaction areas of two hybrid photocatalysts were 1.52 and 1.64 times larger than that of P25, respectively, which is the major reason to make the high removal efficiency of toluene.	Toluene	198-205	tubulin polymerization promoting protein	Homo sapiens	114-117
19097698-8	2009	The photocatalytic activity of TiO2/N was higher than that of unmodified material and P25 under visible light irradiation.	titanium dioxide	31-35	tubulin polymerization promoting protein	Homo sapiens	86-89
19097698-8	2009	The photocatalytic activity of TiO2/N was higher than that of unmodified material and P25 under visible light irradiation.	Nitrogen	36-37	tubulin polymerization promoting protein	Homo sapiens	86-89
19453129-2	2009	The controlled preparation of one-dimensional nanostructures of titanates (H2Ti4O9.nH2O) has been conducted at a very low concentration of alkaline solution (1 M NaOH), and in a very short time (12 h) using TiO2 anatase and TiO2 P-25 (precursors) and a microwave enhanced soft chemical process.	h2ti4o9	75-82	tubulin polymerization promoting protein	Homo sapiens	229-233
19453129-6	2009	X-ray diffraction (XRD) showed two crystalline phases (tetragonal and monoclinic) in the case of TiO2 (anatase) and one crystalline phase (monoclinic) for products of TiO2 (P-25).	titanium dioxide	167-171	tubulin polymerization promoting protein	Homo sapiens	173-177
19453129-2	2009	The controlled preparation of one-dimensional nanostructures of titanates (H2Ti4O9.nH2O) has been conducted at a very low concentration of alkaline solution (1 M NaOH), and in a very short time (12 h) using TiO2 anatase and TiO2 P-25 (precursors) and a microwave enhanced soft chemical process.	nh2o	83-87	tubulin polymerization promoting protein	Homo sapiens	229-233
19453129-10	2009	High-resolution TEM (HRTEM) data supported findings of X-ray diffraction results of the products of TiO2 (anatase) and TiO2 (P-25).	titanium dioxide	119-123	tubulin polymerization promoting protein	Homo sapiens	125-129
19453129-4	2009	A combination of anatase nanoparticles/hydrogen tetratitanate nanotubes was synthesized using TiO2 (anatase) and a temperature of only 100 degrees C. When TiO2 (P-25) was used with the same concentration of alkaline solution (1 M NaOH), the same processing time of 12 h, and a higher temperature at 110 degrees C, only hydrogen tetratitanate nanotubes were observed.	titanium dioxide	155-159	tubulin polymerization promoting protein	Homo sapiens	161-165
19655980-7	2009	Based on experimental results, catalyst activity is optimized by doping TiO2 nanotubes directly (rather than doping P-25 prior to nanotube formation), a low platinum loading (0.01 wt %), and using a dope time of 30 min followed by calcination at 773 K. The optimum catalyst preparation conditions produced a catalyst that was three times more active than the starting P-25 material.	titanium dioxide	72-76	tubulin polymerization promoting protein	Homo sapiens	368-372
19218223-0	2009	A single U/C nucleotide substitution changing alanine to valine in the beet necrotic yellow vein virus P25 protein promotes increased virus accumulation in roots of mechanically inoculated, partially resistant sugar beet seedlings.	Alanine	46-53	tubulin polymerization promoting protein	Homo sapiens	103-106
18823706-7	2009	And the maximum conversion of NO was about 72% higher than that of P25 when the initial concentration of NO was 200 ppm, which showed that Pd/TiO(2) photocatalysts could be potentially applied to oxidize higher concentration of NO.	Palladium	139-142	tubulin polymerization promoting protein	Homo sapiens	67-70
18823706-7	2009	And the maximum conversion of NO was about 72% higher than that of P25 when the initial concentration of NO was 200 ppm, which showed that Pd/TiO(2) photocatalysts could be potentially applied to oxidize higher concentration of NO.	titanium dioxide	142-148	tubulin polymerization promoting protein	Homo sapiens	67-70
19424532-1	2009	Hydroxoaluminiumtricarboxymonoamide phthalocyanine (AlTCPc) adsorbed at different loadings on TiO(2) Degussa P-25 was tested for Cr(vi) photocatalytic reduction under visible irradiation in the presence of 4-chlorophenol (4-CP) as sacrificial donor.	hydroxoaluminiumtricarboxymonoamide phthalocyanine	0-50	tubulin polymerization promoting protein	Homo sapiens	109-113
19424532-1	2009	Hydroxoaluminiumtricarboxymonoamide phthalocyanine (AlTCPc) adsorbed at different loadings on TiO(2) Degussa P-25 was tested for Cr(vi) photocatalytic reduction under visible irradiation in the presence of 4-chlorophenol (4-CP) as sacrificial donor.	altcpc	52-58	tubulin polymerization promoting protein	Homo sapiens	109-113
19424532-1	2009	Hydroxoaluminiumtricarboxymonoamide phthalocyanine (AlTCPc) adsorbed at different loadings on TiO(2) Degussa P-25 was tested for Cr(vi) photocatalytic reduction under visible irradiation in the presence of 4-chlorophenol (4-CP) as sacrificial donor.	titanium dioxide	94-100	tubulin polymerization promoting protein	Homo sapiens	109-113
19218223-0	2009	A single U/C nucleotide substitution changing alanine to valine in the beet necrotic yellow vein virus P25 protein promotes increased virus accumulation in roots of mechanically inoculated, partially resistant sugar beet seedlings.	Valine	57-63	tubulin polymerization promoting protein	Homo sapiens	103-106
18799343-3	2009	The kinetic constant of CNTs/TiO2 for the MO degradation is 2.2 times higher than that of P25, which indicated that the sonophotocatalytic ability of CNTs/TiO2 is obviously higher than P25 powder.	titanium dioxide	29-33	tubulin polymerization promoting protein	Homo sapiens	185-188
19441427-1	2009	Titanate nanotubes were synthesized by hydrothermal method with different NaOH concentration using various TiO2 powders (P-25, rutile, anatase, and Ni doped TiO2) at 120 degrees C for 24 hrs.	titanium(4+)	0-8	tubulin polymerization promoting protein	Homo sapiens	121-125
18799343-3	2009	The kinetic constant of CNTs/TiO2 for the MO degradation is 2.2 times higher than that of P25, which indicated that the sonophotocatalytic ability of CNTs/TiO2 is obviously higher than P25 powder.	titanium dioxide	155-159	tubulin polymerization promoting protein	Homo sapiens	90-93
18597524-5	2008	The degradation of the copolymer in the presence of combustion-synthesized titania was significantly higher than that observed in the presence of commercial titania, Degussa P-25.	copolymer	23-32	tubulin polymerization promoting protein	Homo sapiens	174-178
18690728-6	2008	In the photocatalytic dehydrogenation of neat ethanol, 1% Pt/TiO 2 (B) nanofiber calcined at 673 K was the most active catalyst and generated about the same amount of H 2 as did 1% Pt/P-25.	Ethanol	46-53	tubulin polymerization promoting protein	Homo sapiens	184-188
18690728-6	2008	In the photocatalytic dehydrogenation of neat ethanol, 1% Pt/TiO 2 (B) nanofiber calcined at 673 K was the most active catalyst and generated about the same amount of H 2 as did 1% Pt/P-25.	Platinum	58-60	tubulin polymerization promoting protein	Homo sapiens	184-188
18435830-6	2008	It was found that porcine p25alpha is heavily modified with a variety of modifications: phosphorylation, di- and trimethylation, citrullination and a HexNAc group.	N-Acetylhexosamine	150-156	tubulin polymerization promoting protein	Homo sapiens	26-34
18358513-0	2008	Higher intrinsic photocatalytic efficiency of 2,4,6-triphenylpyrylium-based photocatalysts compared to TiO2 P-25 for the degradation of 2,4-dichlorophenol using solar simulated light.	2,4-dichlorophenol	136-154	tubulin polymerization promoting protein	Homo sapiens	108-112
18358513-1	2008	The photocatalytic efficiency of two 2,4,6-triphenylpyrylium (TP(+)) based photocatalysts (supported on silica or incorporated inside zeolite Beta, 3wt%) for the degradation of 2,4-dichlorophenol (DCP) in aqueous media has been compared with TiO(2) (Degussa P-25).	neotetrazolium	62-64	tubulin polymerization promoting protein	Homo sapiens	258-262
18312004-4	2008	The synthesized novel F-doped TiO(2) flower-like nanomaterials possess good crystallinity and exhibit high photoelectrochemical activity for water-splitting and photodegradation of organic pollutants compared with P-25, which is currently considered to be one of the best commercial TiO(2) photocatalysts.	titanium dioxide	30-36	tubulin polymerization promoting protein	Homo sapiens	214-218
17692887-5	2008	The effect of temperature on the degradation rate of Chloramphenicol shows similar apparent activation energies for both TiO(2) P-25 and ZnO photocatalysts.	Chloramphenicol	53-68	tubulin polymerization promoting protein	Homo sapiens	128-132
18323122-1	2008	The simultaneous photocatalytic degradation of phenol and 4-nitrophenol and reduction of metal ions like copper (Cu2+) and chromium (Cr6+) was studied with solution combustion synthesized nanoanatase TiO2 (CS TiO2) and commercial titania, Degussa P-25.	titanium dioxide	200-204	tubulin polymerization promoting protein	Homo sapiens	247-251
18323122-1	2008	The simultaneous photocatalytic degradation of phenol and 4-nitrophenol and reduction of metal ions like copper (Cu2+) and chromium (Cr6+) was studied with solution combustion synthesized nanoanatase TiO2 (CS TiO2) and commercial titania, Degussa P-25.	Cesium	206-208	tubulin polymerization promoting protein	Homo sapiens	247-251
18323122-7	2008	The rate of reduction of metal ions in presence of Degussa P-25 is twice as slow as that of CS TiO2 in presence of both phenol and 4-nitrophenol.	Metals	25-30	tubulin polymerization promoting protein	Homo sapiens	59-63
18323122-7	2008	The rate of reduction of metal ions in presence of Degussa P-25 is twice as slow as that of CS TiO2 in presence of both phenol and 4-nitrophenol.	cs tio2	92-99	tubulin polymerization promoting protein	Homo sapiens	59-63
18323122-7	2008	The rate of reduction of metal ions in presence of Degussa P-25 is twice as slow as that of CS TiO2 in presence of both phenol and 4-nitrophenol.	Phenol	120-126	tubulin polymerization promoting protein	Homo sapiens	59-63
18323122-7	2008	The rate of reduction of metal ions in presence of Degussa P-25 is twice as slow as that of CS TiO2 in presence of both phenol and 4-nitrophenol.	4-nitrophenol	131-144	tubulin polymerization promoting protein	Homo sapiens	59-63
18036632-5	2008	When irradiating P25 suspensions containing bromide and 2,4-dihydroxybenzoic acid (DHBA, high bromoform formation potential), we observed the formation of significant amounts of bromoform (up to 10microgL(-1)).	Bromides	44-51	tubulin polymerization promoting protein	Homo sapiens	17-20
18036632-5	2008	When irradiating P25 suspensions containing bromide and 2,4-dihydroxybenzoic acid (DHBA, high bromoform formation potential), we observed the formation of significant amounts of bromoform (up to 10microgL(-1)).	beta-resorcylic acid	56-81	tubulin polymerization promoting protein	Homo sapiens	17-20
18036632-5	2008	When irradiating P25 suspensions containing bromide and 2,4-dihydroxybenzoic acid (DHBA, high bromoform formation potential), we observed the formation of significant amounts of bromoform (up to 10microgL(-1)).	beta-resorcylic acid	83-87	tubulin polymerization promoting protein	Homo sapiens	17-20
18398885-1	2008	The photocatalytic oxidation of benzyl alcohol (BA) and 4-methoxybenzyl alcohol (MBA) has been performed in pure water by using commercial TiO(2) samples (Sigma-Aldrich, Merck, Degussa P25) and rutile TiO(2) prepared from TiCl(4) at low temperature.	Benzyl Alcohol	48-50	tubulin polymerization promoting protein	Homo sapiens	185-188
18398885-1	2008	The photocatalytic oxidation of benzyl alcohol (BA) and 4-methoxybenzyl alcohol (MBA) has been performed in pure water by using commercial TiO(2) samples (Sigma-Aldrich, Merck, Degussa P25) and rutile TiO(2) prepared from TiCl(4) at low temperature.	anisyl alcohol	81-84	tubulin polymerization promoting protein	Homo sapiens	185-188
17693641-11	2007	The combination of our in vitro and in vivo data suggests that ERK2 can regulate TPPP activity via the phosphorylation of Thr(14) and/or Ser(18) in its unfolded N-terminal tail.	Threonine	122-125	tubulin polymerization promoting protein	Homo sapiens	81-85
17693641-11	2007	The combination of our in vitro and in vivo data suggests that ERK2 can regulate TPPP activity via the phosphorylation of Thr(14) and/or Ser(18) in its unfolded N-terminal tail.	Serine	137-140	tubulin polymerization promoting protein	Homo sapiens	81-85
16987594-1	2007	TiO(2) photocatalyst (P-25) (50mgL(-1)) was tentatively introduced into pulsed high-voltage discharge process for non-thermal plasma-induced photocatalytic degradation of the representative mode organic pollutant parachlorophenol (4-CP), including other compounds phenol and methyl red in water.	4-chlorophenol	213-229	tubulin polymerization promoting protein	Homo sapiens	22-26
17293035-4	2007	The results indicated that the photocatalytic activity of the mesoporous titania nanorod/titanate nanotube composites exceeded that of P25 by a factor of about 2.5 times for the photocatalytic oxidation of acetone.	Acetone	206-213	tubulin polymerization promoting protein	Homo sapiens	135-138
17382582-6	2007	RESULTS: Amplitudes of P25/N33 (parietal components) following right median nerve stimulation were significantly increased for at least 53 min after TBS over the left M1, whereas this component was suppressed for 13 min after TBS over a point 2 cm posterior.	tribromsalan	149-152	tubulin polymerization promoting protein	Homo sapiens	23-30
17382582-6	2007	RESULTS: Amplitudes of P25/N33 (parietal components) following right median nerve stimulation were significantly increased for at least 53 min after TBS over the left M1, whereas this component was suppressed for 13 min after TBS over a point 2 cm posterior.	tribromsalan	226-229	tubulin polymerization promoting protein	Homo sapiens	23-30
17544577-4	2007	Where applicable 1g/L TiO(2) (P-25) was used, suspended in the liquid in a form of turbulent slurry or using a glass tube around the UV-lamp on which a fixed TiO(2) catalytic layer had been deposited.	titanium dioxide	22-28	tubulin polymerization promoting protein	Homo sapiens	30-34
16987594-1	2007	TiO(2) photocatalyst (P-25) (50mgL(-1)) was tentatively introduced into pulsed high-voltage discharge process for non-thermal plasma-induced photocatalytic degradation of the representative mode organic pollutant parachlorophenol (4-CP), including other compounds phenol and methyl red in water.	4-cumylphenol	231-235	tubulin polymerization promoting protein	Homo sapiens	22-26
16987594-1	2007	TiO(2) photocatalyst (P-25) (50mgL(-1)) was tentatively introduced into pulsed high-voltage discharge process for non-thermal plasma-induced photocatalytic degradation of the representative mode organic pollutant parachlorophenol (4-CP), including other compounds phenol and methyl red in water.	Phenol	223-229	tubulin polymerization promoting protein	Homo sapiens	22-26
16987594-1	2007	TiO(2) photocatalyst (P-25) (50mgL(-1)) was tentatively introduced into pulsed high-voltage discharge process for non-thermal plasma-induced photocatalytic degradation of the representative mode organic pollutant parachlorophenol (4-CP), including other compounds phenol and methyl red in water.	methyl red	275-285	tubulin polymerization promoting protein	Homo sapiens	22-26
16987594-1	2007	TiO(2) photocatalyst (P-25) (50mgL(-1)) was tentatively introduced into pulsed high-voltage discharge process for non-thermal plasma-induced photocatalytic degradation of the representative mode organic pollutant parachlorophenol (4-CP), including other compounds phenol and methyl red in water.	Water	289-294	tubulin polymerization promoting protein	Homo sapiens	22-26
16903269-0	2006	Titanium dioxide (P25) produces reactive oxygen species in immortalized brain microglia (BV2): implications for nanoparticle neurotoxicity.	titanium dioxide	0-16	tubulin polymerization promoting protein	Homo sapiens	18-21
17913160-11	2007	The degradation of ARB dye indicated that the photocatalytic activities of boron- and cerium-codoped TiO2 were much higher than those of P25 (a standard TiO2 powder).	titanium dioxide	101-105	tubulin polymerization promoting protein	Homo sapiens	137-140
17674863-4	2007	It was found that TiO2 photocatalysis is an effective method for the degradation of the natural (17 beta-oestradiol and oestriol) and the synthetic (17 alpha-ethynyloestradiol) oestrogens in water in immobilised Degussa P25 and sol-gel spiral reactors with both UVA and solar radiation as the light source.	titanium dioxide	18-22	tubulin polymerization promoting protein	Homo sapiens	220-223
17674863-6	2007	Photocatalysis was shown to completely mineralise 1,4-dioxane to CO2 in Degussa P25 suspension and sol-gel reactors using both UVA and solar radiation.	1,4-dioxane	50-61	tubulin polymerization promoting protein	Homo sapiens	80-83
17674863-6	2007	Photocatalysis was shown to completely mineralise 1,4-dioxane to CO2 in Degussa P25 suspension and sol-gel reactors using both UVA and solar radiation.	N2,N6-bis(4-(2-aminoethoxy)quinolin-2-yl)-4-((4-fluorobenzyl)oxy)pyridine-2,6-dicarboxamide	65-68	tubulin polymerization promoting protein	Homo sapiens	80-83
17007143-5	2006	The photocatalytic conversion of benzene over beta-Ga2O3 was about 1 order of magnitude higher than that over P25, and no obvious deactivation of beta-Ga2O3 was observed during the prolonged operation of 80 h. The high activity and long-term stability of the Ga2O3 have been ascribed to its stronger oxidative capability and higher specific surface area in comparison with P25.	Benzene	33-40	tubulin polymerization promoting protein	Homo sapiens	110-113
17007143-5	2006	The photocatalytic conversion of benzene over beta-Ga2O3 was about 1 order of magnitude higher than that over P25, and no obvious deactivation of beta-Ga2O3 was observed during the prolonged operation of 80 h. The high activity and long-term stability of the Ga2O3 have been ascribed to its stronger oxidative capability and higher specific surface area in comparison with P25.	Benzene	33-40	tubulin polymerization promoting protein	Homo sapiens	373-376
17007143-5	2006	The photocatalytic conversion of benzene over beta-Ga2O3 was about 1 order of magnitude higher than that over P25, and no obvious deactivation of beta-Ga2O3 was observed during the prolonged operation of 80 h. The high activity and long-term stability of the Ga2O3 have been ascribed to its stronger oxidative capability and higher specific surface area in comparison with P25.	beta-ga2o3	46-56	tubulin polymerization promoting protein	Homo sapiens	373-376
17007143-5	2006	The photocatalytic conversion of benzene over beta-Ga2O3 was about 1 order of magnitude higher than that over P25, and no obvious deactivation of beta-Ga2O3 was observed during the prolonged operation of 80 h. The high activity and long-term stability of the Ga2O3 have been ascribed to its stronger oxidative capability and higher specific surface area in comparison with P25.	ga2o3	51-56	tubulin polymerization promoting protein	Homo sapiens	373-376
17123092-6	2007	The antibody raised against aa 184-200 segment of TPPP/p25 is better in immunolabelling the majority of alpha-synuclein immunopositive neuronal and glial pathological profiles detectable in Parkinson"s disease, diffuse Lewy-body disease, and multiple system atrophy, in addition to immunostaining some extracellular huntingtin immunoreactive structures, lipofuscin, and neuromelanin particles.	Lipofuscin	354-364	tubulin polymerization promoting protein	Homo sapiens	50-58
17123092-6	2007	The antibody raised against aa 184-200 segment of TPPP/p25 is better in immunolabelling the majority of alpha-synuclein immunopositive neuronal and glial pathological profiles detectable in Parkinson"s disease, diffuse Lewy-body disease, and multiple system atrophy, in addition to immunostaining some extracellular huntingtin immunoreactive structures, lipofuscin, and neuromelanin particles.	neuromelanin	370-382	tubulin polymerization promoting protein	Homo sapiens	50-58
17109930-1	2007	Hydrogen titanate (H-titanate) nanowires were prepared via a hydrothermal reaction of TiO2 powders (P25) in KOH solutions and then calcined at various temperatures.	hydrogen titanate (h-titanate	0-29	tubulin polymerization promoting protein	Homo sapiens	100-103
17109930-4	2007	At a calcination temperature range of 400-600 degrees C, the calcined H-titanate nanowires showed higher photocatalytic activity than P25 powders for photocatalytic oxidation of acetone.	h-titanate	70-80	tubulin polymerization promoting protein	Homo sapiens	134-137
17109930-4	2007	At a calcination temperature range of 400-600 degrees C, the calcined H-titanate nanowires showed higher photocatalytic activity than P25 powders for photocatalytic oxidation of acetone.	Acetone	178-185	tubulin polymerization promoting protein	Homo sapiens	134-137
17109930-5	2007	Especially, at 500 degrees C, the calcined H-titanate nanowires showed the highest photocatalytic activity, which exceeded that of P25 by a factor of about 1.8 times.	titanium(4+)	45-53	tubulin polymerization promoting protein	Homo sapiens	131-134
17133639-8	2007	The dye degradation rate of the porous TiO2 hollow aggregates is more than twice that of P25.	titanium dioxide	39-43	tubulin polymerization promoting protein	Homo sapiens	89-92
16903269-0	2006	Titanium dioxide (P25) produces reactive oxygen species in immortalized brain microglia (BV2): implications for nanoparticle neurotoxicity.	Reactive Oxygen Species	32-55	tubulin polymerization promoting protein	Homo sapiens	18-21
16903269-8	2006	The biological response of BV2 microglia to noncytotoxic (2.5-120 ppm) concentrations of P25 was a rapid (&lt;5 min) and sustained (120 min) release of reactive oxygen species.	Reactive Oxygen Species	152-175	tubulin polymerization promoting protein	Homo sapiens	89-92
16685325-1	2006	The degradation of pesticide methomyl in aqueous solution by UV-irradiation in the presence of TiO2 "Degussa P-25" has been studied.	titanium dioxide	95-99	tubulin polymerization promoting protein	Homo sapiens	109-113
16800686-1	2006	The effect of the presequence peptide of cytochrome c oxidase subunit IV (p25) on supported phospholipid bilayers (SPBs) was visualized using atomic force microscopy (AFM).	phospholipid bilayers	92-113	tubulin polymerization promoting protein	Homo sapiens	74-77
16800686-1	2006	The effect of the presequence peptide of cytochrome c oxidase subunit IV (p25) on supported phospholipid bilayers (SPBs) was visualized using atomic force microscopy (AFM).	spbs	115-119	tubulin polymerization promoting protein	Homo sapiens	74-77
15846423-1	2005	Well-crystallised TiO2 particles (P-25, 20-30 nm in diameter) were directly incorporated into surfactant-templated mesoporous silica particles (pore diameter: 2.7 nm), and the composite material with a high TiO2 content (60 wt%) showed molecular selective and enhanced photocatalysis for decomposition of 4-nonylphenol.	titanium dioxide	18-22	tubulin polymerization promoting protein	Homo sapiens	34-38
16585581-6	2006	Using an N-acetylglucosamine (GlcNAc)-agarose column, MBL-like lectin (p25) was isolated from lamprey serum and cDNA cloning was conducted.	Acetylglucosamine	9-28	tubulin polymerization promoting protein	Homo sapiens	71-74
16585581-6	2006	Using an N-acetylglucosamine (GlcNAc)-agarose column, MBL-like lectin (p25) was isolated from lamprey serum and cDNA cloning was conducted.	Acetylglucosamine	30-36	tubulin polymerization promoting protein	Homo sapiens	71-74
16585581-6	2006	Using an N-acetylglucosamine (GlcNAc)-agarose column, MBL-like lectin (p25) was isolated from lamprey serum and cDNA cloning was conducted.	Sepharose	38-45	tubulin polymerization promoting protein	Homo sapiens	71-74
17090492-1	2006	The present work mainly deals with photocatalytic degradation of a herbicide, erioglaucine, in water in the presence of TiO2 nanoparticles (Degussa P-25) under ultraviolet (UV) light illumination (30 W).	brilliant blue	78-90	tubulin polymerization promoting protein	Homo sapiens	148-152
17090492-1	2006	The present work mainly deals with photocatalytic degradation of a herbicide, erioglaucine, in water in the presence of TiO2 nanoparticles (Degussa P-25) under ultraviolet (UV) light illumination (30 W).	Water	95-100	tubulin polymerization promoting protein	Homo sapiens	148-152
17090492-1	2006	The present work mainly deals with photocatalytic degradation of a herbicide, erioglaucine, in water in the presence of TiO2 nanoparticles (Degussa P-25) under ultraviolet (UV) light illumination (30 W).	titanium dioxide	120-124	tubulin polymerization promoting protein	Homo sapiens	148-152
17090492-7	2006	In this work, we also compared the reactivity between the commercial TiO2 Degussa P-25 and a rutile TiO2.	titanium dioxide	69-73	tubulin polymerization promoting protein	Homo sapiens	82-86
17090492-10	2006	The higher photoactivity of Degussa P-25 compared to that of rutile TiO2 for the photodegradation of erioglaucine may be due to higher hydroxyl content, higher surface area, nano-size and crystallinity of the Degussa P-25.	brilliant blue	101-113	tubulin polymerization promoting protein	Homo sapiens	36-40
17090492-10	2006	The higher photoactivity of Degussa P-25 compared to that of rutile TiO2 for the photodegradation of erioglaucine may be due to higher hydroxyl content, higher surface area, nano-size and crystallinity of the Degussa P-25.	brilliant blue	101-113	tubulin polymerization promoting protein	Homo sapiens	217-221
17090492-10	2006	The higher photoactivity of Degussa P-25 compared to that of rutile TiO2 for the photodegradation of erioglaucine may be due to higher hydroxyl content, higher surface area, nano-size and crystallinity of the Degussa P-25.	Hydroxyl Radical	135-143	tubulin polymerization promoting protein	Homo sapiens	36-40
17090492-11	2006	Our results also showed that the UV/TiO2 process with Degussa P-25 as photocatalyst was appropriate as the effective treatment method for removal of erioglaucine from a real wastewater.	titanium dioxide	36-40	tubulin polymerization promoting protein	Homo sapiens	62-66
17090492-11	2006	Our results also showed that the UV/TiO2 process with Degussa P-25 as photocatalyst was appropriate as the effective treatment method for removal of erioglaucine from a real wastewater.	brilliant blue	149-161	tubulin polymerization promoting protein	Homo sapiens	62-66
17090492-12	2006	The electrical energy consumption per order of magnitude for photocatalytic degradation of erioglaucine was lower with Degussa P-25 than in the presence of rutile TiO2.	brilliant blue	91-103	tubulin polymerization promoting protein	Homo sapiens	127-131
16474882-1	2005	TiO2 nanotubes (TNTs) with large aspect ratio and large specific surface area were prepared from P25 (Nippon Aerosil) and applied to dye-sensitized titanium dioxide solar cells (DSSCs).	titanium dioxide	0-4	tubulin polymerization promoting protein	Homo sapiens	97-100
16474882-1	2005	TiO2 nanotubes (TNTs) with large aspect ratio and large specific surface area were prepared from P25 (Nippon Aerosil) and applied to dye-sensitized titanium dioxide solar cells (DSSCs).	tnts	16-20	tubulin polymerization promoting protein	Homo sapiens	97-100
16474882-2	2005	Optimization of fabrication conditions, i.e., pH of the starting paste, sintering temperature for the TiO2 electrodes, electrolyte compositions of DSSCs gave the high conversion efficiency with improved open circuit voltage (V(oc)) and fill factor (FF) when compared to DSSCs made of P25.	titanium dioxide	102-106	tubulin polymerization promoting protein	Homo sapiens	284-287
16474882-3	2005	The evaluation of dye adsorption and the photo-injected electron transport such as electron diffusion coefficient (D) and electron lifetime (tau) in TNTs electrodes revealed that the higher efficiency resulted from increase of electron density with keeping much longer tau in TNTs electrodes than in P25 electrodes.	tnts	149-153	tubulin polymerization promoting protein	Homo sapiens	300-303
16474882-3	2005	The evaluation of dye adsorption and the photo-injected electron transport such as electron diffusion coefficient (D) and electron lifetime (tau) in TNTs electrodes revealed that the higher efficiency resulted from increase of electron density with keeping much longer tau in TNTs electrodes than in P25 electrodes.	tnts	276-280	tubulin polymerization promoting protein	Homo sapiens	300-303
15914164-2	2005	Pure microporous titanosilicate ETS-10 was synthesized with P25 as the Ti source and characterized by the techniques of X-ray diffraction (XRD), field emission-scanning electron microscope (FESEM), nitrogen adsorption, and zeta-potential.	titanosilicate	17-31	tubulin polymerization promoting protein	Homo sapiens	60-63
15914164-2	2005	Pure microporous titanosilicate ETS-10 was synthesized with P25 as the Ti source and characterized by the techniques of X-ray diffraction (XRD), field emission-scanning electron microscope (FESEM), nitrogen adsorption, and zeta-potential.	ETS-10	32-38	tubulin polymerization promoting protein	Homo sapiens	60-63
15840587-4	2005	Biochemical analysis showed that bacterial His-tagged p12 could be converted into a dimeric p25 in a reducing agent-dependent manner, and mutating the only cysteine residue of p12 (Cys(105) --&gt; Ala(105)) abolished the dimerization.	Histidine	43-46	tubulin polymerization promoting protein	Homo sapiens	92-95
15840587-4	2005	Biochemical analysis showed that bacterial His-tagged p12 could be converted into a dimeric p25 in a reducing agent-dependent manner, and mutating the only cysteine residue of p12 (Cys(105) --&gt; Ala(105)) abolished the dimerization.	Cysteine	181-184	tubulin polymerization promoting protein	Homo sapiens	92-95
15840587-7	2005	These data supports the possibility that p25 is a homodimeric form of p12 through the cysteine residue.	Cysteine	86-94	tubulin polymerization promoting protein	Homo sapiens	41-44
15883183-4	2005	Here we show that recombinant human p25alpha is folded under physiological conditions, since it has a well structured and solvent-sequestered aromatic environment and considerable chemical shift dispersion of amide and aliphatic protons.	Amides	209-214	tubulin polymerization promoting protein	Homo sapiens	36-44
15883183-5	2005	With increasing urea concentrations, p25alpha undergoes clear spectral changes suggesting significant loss of structure.	Urea	16-20	tubulin polymerization promoting protein	Homo sapiens	37-45
15883183-6	2005	p25alpha unfolds cooperatively in urea according to a simple two-state transition with a stability in water of approximately 5 kcal/mol.	Urea	34-38	tubulin polymerization promoting protein	Homo sapiens	0-8
15883183-6	2005	p25alpha unfolds cooperatively in urea according to a simple two-state transition with a stability in water of approximately 5 kcal/mol.	Water	102-107	tubulin polymerization promoting protein	Homo sapiens	0-8
16366483-3	2005	The results show that catalyst activity is affected drastically by calcining temperature, the optimal temperature is 300 degrees C; the SEM photos of immobilized catalyst indicated that P25 adhered to glass fiber firmly; The Reactive Red X-3B was more easily degraded in acid solution, when initial pH increasing from 2.0 to 10.0, the degradation rate of Reactive Red X-3B decreased from 90.06% to 42.71%; inorganic anions, CO3(2-) and SO4(2-), had little effect on the degradation of Reactive Red X-3B.	reactive red x-3b	225-242	tubulin polymerization promoting protein	Homo sapiens	186-189
16366483-3	2005	The results show that catalyst activity is affected drastically by calcining temperature, the optimal temperature is 300 degrees C; the SEM photos of immobilized catalyst indicated that P25 adhered to glass fiber firmly; The Reactive Red X-3B was more easily degraded in acid solution, when initial pH increasing from 2.0 to 10.0, the degradation rate of Reactive Red X-3B decreased from 90.06% to 42.71%; inorganic anions, CO3(2-) and SO4(2-), had little effect on the degradation of Reactive Red X-3B.	reactive red x	225-239	tubulin polymerization promoting protein	Homo sapiens	186-189
16366483-3	2005	The results show that catalyst activity is affected drastically by calcining temperature, the optimal temperature is 300 degrees C; the SEM photos of immobilized catalyst indicated that P25 adhered to glass fiber firmly; The Reactive Red X-3B was more easily degraded in acid solution, when initial pH increasing from 2.0 to 10.0, the degradation rate of Reactive Red X-3B decreased from 90.06% to 42.71%; inorganic anions, CO3(2-) and SO4(2-), had little effect on the degradation of Reactive Red X-3B.	co3	424-427	tubulin polymerization promoting protein	Homo sapiens	186-189
16366483-3	2005	The results show that catalyst activity is affected drastically by calcining temperature, the optimal temperature is 300 degrees C; the SEM photos of immobilized catalyst indicated that P25 adhered to glass fiber firmly; The Reactive Red X-3B was more easily degraded in acid solution, when initial pH increasing from 2.0 to 10.0, the degradation rate of Reactive Red X-3B decreased from 90.06% to 42.71%; inorganic anions, CO3(2-) and SO4(2-), had little effect on the degradation of Reactive Red X-3B.	sulfuric acid	436-439	tubulin polymerization promoting protein	Homo sapiens	186-189
16366483-3	2005	The results show that catalyst activity is affected drastically by calcining temperature, the optimal temperature is 300 degrees C; the SEM photos of immobilized catalyst indicated that P25 adhered to glass fiber firmly; The Reactive Red X-3B was more easily degraded in acid solution, when initial pH increasing from 2.0 to 10.0, the degradation rate of Reactive Red X-3B decreased from 90.06% to 42.71%; inorganic anions, CO3(2-) and SO4(2-), had little effect on the degradation of Reactive Red X-3B.	reactive red x	355-369	tubulin polymerization promoting protein	Homo sapiens	186-189
15845584-4	2005	PAS increased exclusively the amplitude of the P25 component of the median nerve-evoked somatosensory-evoked potential (MN-SSEP), which is probably generated in the superficial cortical layers of area 3b.	Aminosalicylic Acid	0-3	tubulin polymerization promoting protein	Homo sapiens	47-50
15845584-4	2005	PAS increased exclusively the amplitude of the P25 component of the median nerve-evoked somatosensory-evoked potential (MN-SSEP), which is probably generated in the superficial cortical layers of area 3b.	mn-ssep	120-127	tubulin polymerization promoting protein	Homo sapiens	47-50
15845584-6	2005	PAS-induced enhancement of P25 amplitude displayed topographical specificity both for the recording (MN-SSEP versus tibial nerve-SSEP) and the stimulation (magnetic stimulation targeting somatosensory versus motor cortex) arrangements.	Aminosalicylic Acid	0-3	tubulin polymerization promoting protein	Homo sapiens	27-30
16852296-0	2005	Preparation and comparison of supported gold nanocatalysts on anatase, brookite, rutile, and P25 polymorphs of TiO2 for catalytic oxidation of CO.	titanium dioxide	111-115	tubulin polymerization promoting protein	Homo sapiens	93-96
16852296-0	2005	Preparation and comparison of supported gold nanocatalysts on anatase, brookite, rutile, and P25 polymorphs of TiO2 for catalytic oxidation of CO.	Carbon Monoxide	143-145	tubulin polymerization promoting protein	Homo sapiens	93-96
15974269-5	2005	However, the life-time of P25 Degussa at high phenol concentration was lower compared to that of anatase A11 because of the carbon deposit formation on P25 surface.	Phenol	46-52	tubulin polymerization promoting protein	Homo sapiens	26-29
15974269-5	2005	However, the life-time of P25 Degussa at high phenol concentration was lower compared to that of anatase A11 because of the carbon deposit formation on P25 surface.	Carbon	124-130	tubulin polymerization promoting protein	Homo sapiens	26-29
15974269-5	2005	However, the life-time of P25 Degussa at high phenol concentration was lower compared to that of anatase A11 because of the carbon deposit formation on P25 surface.	Carbon	124-130	tubulin polymerization promoting protein	Homo sapiens	152-155
15974269-6	2005	The catalytic activity of rutile phase in P25 in the reaction of carbon deposits formation is postulated.	Carbon	65-71	tubulin polymerization promoting protein	Homo sapiens	42-45
15269388-4	2004	Furthermore, it was demonstrated that p25 contains a nuclear export sequence sensitive to leptomycin B.	leptomycin B	90-102	tubulin polymerization promoting protein	Homo sapiens	38-41
16851262-2	2005	The X-ray diffraction measurements revealed that both P25 and SP are mainly anatase and the average crystal sizes, 2a, of P25 and SP are 50.3 and 23.7 nm, respectively.	TFF2 protein, human	130-132	tubulin polymerization promoting protein	Homo sapiens	54-57
15590652-3	2005	Functionally, purified recombinant human p25alpha strongly stimulates the aggregation of alpha-synuclein in vitro as demonstrated by thioflavin-T fluorescence and quantitative electron microscopy.	thioflavin T	133-145	tubulin polymerization promoting protein	Homo sapiens	41-49
15644249-0	2005	Photocatalytic degradation of carbamazepine, clofibric acid and iomeprol with P25 and Hombikat UV100 in the presence of natural organic matter (NOM) and other organic water constituents.	Carbamazepine	30-43	tubulin polymerization promoting protein	Homo sapiens	78-81
15644249-0	2005	Photocatalytic degradation of carbamazepine, clofibric acid and iomeprol with P25 and Hombikat UV100 in the presence of natural organic matter (NOM) and other organic water constituents.	Clofibric Acid	45-59	tubulin polymerization promoting protein	Homo sapiens	78-81
15644249-0	2005	Photocatalytic degradation of carbamazepine, clofibric acid and iomeprol with P25 and Hombikat UV100 in the presence of natural organic matter (NOM) and other organic water constituents.	iomeprol	64-72	tubulin polymerization promoting protein	Homo sapiens	78-81
15900762-3	2005	The photocatalytic activity of co-doped TiO2 with anatase phases was found to be 2.4 times higher than that of the commercial TiO2 photocatalyst Degussa P25 for phenol decomposition under visible light irradiation.	titanium dioxide	40-44	tubulin polymerization promoting protein	Homo sapiens	153-156
15900762-3	2005	The photocatalytic activity of co-doped TiO2 with anatase phases was found to be 2.4 times higher than that of the commercial TiO2 photocatalyst Degussa P25 for phenol decomposition under visible light irradiation.	titanium dioxide	126-130	tubulin polymerization promoting protein	Homo sapiens	153-156
15900762-3	2005	The photocatalytic activity of co-doped TiO2 with anatase phases was found to be 2.4 times higher than that of the commercial TiO2 photocatalyst Degussa P25 for phenol decomposition under visible light irradiation.	Phenol	161-167	tubulin polymerization promoting protein	Homo sapiens	153-156
15474353-2	2004	We show by 1H-NMR spectroscopy that TPPP/p25 is natively unfolded.	Hydrogen	11-13	tubulin polymerization promoting protein	Homo sapiens	36-44
15139528-5	2004	The L-form, D-form, retro-inverted D-form, and selective Cys-to-Ala site-directed mutants of peptides P8 and P25 were also shown to retain binding to Caco-2 cell membranes when immobilized on the surface of a model particulate.	Cysteine	57-60	tubulin polymerization promoting protein	Homo sapiens	109-112
15180072-2	2004	They also are of high crystallinity, large surface area of 127 m2 g(-1), and stable phase up to 350 degrees C. Photocatalytic activity of the H2Ti8O17 x 1.5H2O fibers was evaluated in aqueous photooxidation of an azo dye methyl orange in the presence of UV irradiation and 02, using P-25 as the standard sample.	h2ti8o17	142-150	tubulin polymerization promoting protein	Homo sapiens	283-287
15180072-2	2004	They also are of high crystallinity, large surface area of 127 m2 g(-1), and stable phase up to 350 degrees C. Photocatalytic activity of the H2Ti8O17 x 1.5H2O fibers was evaluated in aqueous photooxidation of an azo dye methyl orange in the presence of UV irradiation and 02, using P-25 as the standard sample.	1.5h2o	153-159	tubulin polymerization promoting protein	Homo sapiens	283-287
16459609-2	2004	We previously showed that 2,4,5-trichlorophenol (245TCP) forms a CTC with Degussa P25, a commercial preparation of TiO2.	2,4,5-trichlorophenol	26-47	tubulin polymerization promoting protein	Homo sapiens	82-85
16459609-2	2004	We previously showed that 2,4,5-trichlorophenol (245TCP) forms a CTC with Degussa P25, a commercial preparation of TiO2.	245tcp	49-55	tubulin polymerization promoting protein	Homo sapiens	82-85
16459609-2	2004	We previously showed that 2,4,5-trichlorophenol (245TCP) forms a CTC with Degussa P25, a commercial preparation of TiO2.	titanium dioxide	115-119	tubulin polymerization promoting protein	Homo sapiens	82-85
16459609-4	2004	Slurries of P25 containing 245TCP were irradiated at 360, 400, 430, 480, and 550 nm.	245tcp	27-33	tubulin polymerization promoting protein	Homo sapiens	12-15
16459609-9	2004	With respect to the extent of adsorption, complexation, reaction, and polymerization on P25, the behavior of 245TCP far exceeded that of the other chlorophenols.	Chlorophenols	147-160	tubulin polymerization promoting protein	Homo sapiens	88-91
15139528-5	2004	The L-form, D-form, retro-inverted D-form, and selective Cys-to-Ala site-directed mutants of peptides P8 and P25 were also shown to retain binding to Caco-2 cell membranes when immobilized on the surface of a model particulate.	Alanine	64-67	tubulin polymerization promoting protein	Homo sapiens	109-112
14975647-3	2004	By an accumulation energy of 50 kJL(-1) the synergetic effect of 0.2 gL(-1)TiO(2) P-25 with hydrogen peroxide (H(2)O(2)) and Na(2)S(2)O(8) leads to a 55% and 73% reduction of the initial organic carbon content, respectively.	glycylleucine	69-71	tubulin polymerization promoting protein	Homo sapiens	82-86
14975647-3	2004	By an accumulation energy of 50 kJL(-1) the synergetic effect of 0.2 gL(-1)TiO(2) P-25 with hydrogen peroxide (H(2)O(2)) and Na(2)S(2)O(8) leads to a 55% and 73% reduction of the initial organic carbon content, respectively.	Hydrogen Peroxide	92-109	tubulin polymerization promoting protein	Homo sapiens	82-86
14975647-3	2004	By an accumulation energy of 50 kJL(-1) the synergetic effect of 0.2 gL(-1)TiO(2) P-25 with hydrogen peroxide (H(2)O(2)) and Na(2)S(2)O(8) leads to a 55% and 73% reduction of the initial organic carbon content, respectively.	Carbon	195-201	tubulin polymerization promoting protein	Homo sapiens	82-86
12636247-3	2003	Growth of bacteria in essential minimum medium (M9) led to the detection of secreted proteins of 104, 80,40, 37 and 25 kDa (P104, P80, P40, P37 and P25, respectively).	essential minimum medium	22-46	tubulin polymerization promoting protein	Homo sapiens	148-151
14769415-2	2004	Kinetic studies showed that P25 had a better photocatalytic activity for clofibric acid and carbamazepine than Hombikat UV100.	Clofibric Acid	73-87	tubulin polymerization promoting protein	Homo sapiens	28-31
14769415-2	2004	Kinetic studies showed that P25 had a better photocatalytic activity for clofibric acid and carbamazepine than Hombikat UV100.	Carbamazepine	92-105	tubulin polymerization promoting protein	Homo sapiens	28-31
12879760-2	2003	Several clones of p25 specific scFv antibodies were identified; one of them was expressed as a soluble scFv molecule, purified by immobilized metal-affinity chromatography and further characterized by sequencing and determination of the kinetic equilibrium association constant.	Metals	142-147	tubulin polymerization promoting protein	Homo sapiens	18-21
14575757-5	2004	Compared to the photocatalyst of TiO(2) (Degussa p25), H(3)PW(12)O(40) was less efficient for the dye bleaching and mineralization.	titanium dioxide	33-39	tubulin polymerization promoting protein	Homo sapiens	49-52
14575757-5	2004	Compared to the photocatalyst of TiO(2) (Degussa p25), H(3)PW(12)O(40) was less efficient for the dye bleaching and mineralization.	h(3)pw	55-61	tubulin polymerization promoting protein	Homo sapiens	49-52
15058482-4	2004	Interactions between complexin and its targets (p25alpha and Drac1-like protein) and the interaction between CapZ and tubulin were calcium-dependent.	Calcium	131-138	tubulin polymerization promoting protein	Homo sapiens	48-56
14598403-12	2003	Therefore carbon-carbon composites, such as P25-CVD, may be important in the development of next-generation implants with lower wear rates and reduced cytotoxic potential.	Carbon	10-16	tubulin polymerization promoting protein	Homo sapiens	44-51
14598403-12	2003	Therefore carbon-carbon composites, such as P25-CVD, may be important in the development of next-generation implants with lower wear rates and reduced cytotoxic potential.	Carbon	17-23	tubulin polymerization promoting protein	Homo sapiens	44-51
15641494-6	2003	RESULTS: Mean+/-standard deviation, median and percentiles (p25 - p75) were 5.5+/-2.1, 5 (p25 = 4 - p75 = 6) for DMFT (SiC) and 8.9+/-5.8, 8 (p25 = 5 - p75 = 11) for DMFS (SiC).	dmft	113-117	tubulin polymerization promoting protein	Homo sapiens	60-63
11380196-1	2001	The photocatalysis of azo dye, Orange G, by P-25 anatase TiO2 was investigated in this research.	Azo Compounds	22-29	tubulin polymerization promoting protein	Homo sapiens	44-48
11380196-1	2001	The photocatalysis of azo dye, Orange G, by P-25 anatase TiO2 was investigated in this research.	titanium dioxide	57-61	tubulin polymerization promoting protein	Homo sapiens	44-48
10657731-6	1999	This persisted throughout juvenile development (P10, P17) and was present also in the adult male (P75), but in the peripubertal period the response to bicuculline was first lost (P25) and then reversed to an inhibition (P40), suggesting a transient switch to an apparent stimulatory GABAergic tone on SRIH release.	Bicuculline	151-162	tubulin polymerization promoting protein	Homo sapiens	179-182
11695466-6	2001	The best performance for P25 was achieved with a TiO2 influent concentration of 5 g/L.	titanium dioxide	49-53	tubulin polymerization promoting protein	Homo sapiens	25-28
11695471-4	2001	The photonic efficiency of HCHO formation in the presence of P25 and UV 100 depends on the concentration of TiO2 and the pH.	titanium dioxide	108-112	tubulin polymerization promoting protein	Homo sapiens	61-64
11695471-8	2001	Compared to P25 and UV 100, the true quantum yield of HCHO formation in colloidal TiO2 solution varies a little with pH and virtually does not change with the amount of loading of TiO2.	titanium dioxide	82-86	tubulin polymerization promoting protein	Homo sapiens	12-15
9591669-1	1998	The relationship between the dipole potential and the interaction of the mitochondrial amphipathic signal sequence known as p25 with model membranes has been studied using 1-(3-sulfonatopropyl)-4-[beta[2-(di-n-octyl-amino)-6-naphthyl]viny l] pyridinium betaine (di-8-ANEPPS) as a fluorescent probe.	dipole	29-35	tubulin polymerization promoting protein	Homo sapiens	124-127
10194860-0	1999	Facilitated geranylgeranylation of shrimp ras-encoded p25 fusion protein by the binding with guanosine diphosphate.	Guanosine Diphosphate	93-114	tubulin polymerization promoting protein	Homo sapiens	54-57
10194860-4	1999	As judged by nitrocellulose filtration assay, the specific GTP binding activity of ras-encoded p25 fusion protein was approximately 30,000 units/mg of protein, whereas that of GDP was 5,000 units/mg of protein.	Guanosine Triphosphate	59-62	tubulin polymerization promoting protein	Homo sapiens	95-98
10194860-5	1999	In other words, the GTP bound form of ras-encoded p25 fusion protein prevails.	Guanosine Triphosphate	20-23	tubulin polymerization promoting protein	Homo sapiens	50-53
10194860-7	1999	That is, the protein geranylgeranyl transferase I prefers to react with ras-encoded p25 fusion protein in the GDP bound form.	Guanosine Diphosphate	110-113	tubulin polymerization promoting protein	Homo sapiens	84-87
9591669-1	1998	The relationship between the dipole potential and the interaction of the mitochondrial amphipathic signal sequence known as p25 with model membranes has been studied using 1-(3-sulfonatopropyl)-4-[beta[2-(di-n-octyl-amino)-6-naphthyl]viny l] pyridinium betaine (di-8-ANEPPS) as a fluorescent probe.	1-(3-sulfonatopropyl)-4-[beta[2-(di-n-octyl-amino)-6-naphthyl]viny l] pyridinium betaine	172-260	tubulin polymerization promoting protein	Homo sapiens	124-127
9591669-1	1998	The relationship between the dipole potential and the interaction of the mitochondrial amphipathic signal sequence known as p25 with model membranes has been studied using 1-(3-sulfonatopropyl)-4-[beta[2-(di-n-octyl-amino)-6-naphthyl]viny l] pyridinium betaine (di-8-ANEPPS) as a fluorescent probe.	1-(3-sulfonatopropyl)-4-(beta-(2-(di-n-octylamino)-6-naphthyl)vinyl)pyridinium betaine	262-273	tubulin polymerization promoting protein	Homo sapiens	124-127
9591669-3	1998	The results derived from the application of a dual-wavelength ratiometric fluorescence method for following the variation of the membrane dipole potential have shown that when p25 inserts into the lipidic bilayer, a decrease in the dipole potential takes place.	dipole	138-144	tubulin polymerization promoting protein	Homo sapiens	176-179
9591669-5	1998	Thus, when KC was incorporated into the bilayer, the decrease caused by the membrane insertion of p25 was larger than that caused in PC membranes.	6-ketocholestanol	11-13	tubulin polymerization promoting protein	Homo sapiens	98-101
9591669-10	1998	The differences observed in the dipole potential decreases caused by the presence of the peptide with the PC membranes and phloretin-PC membranes, therefore, must involve differences in the tertiary and, perhaps, quaternary conformations of p25.	dipole	32-38	tubulin polymerization promoting protein	Homo sapiens	241-244
9591669-10	1998	The differences observed in the dipole potential decreases caused by the presence of the peptide with the PC membranes and phloretin-PC membranes, therefore, must involve differences in the tertiary and, perhaps, quaternary conformations of p25.	pc	106-108	tubulin polymerization promoting protein	Homo sapiens	241-244
9591669-10	1998	The differences observed in the dipole potential decreases caused by the presence of the peptide with the PC membranes and phloretin-PC membranes, therefore, must involve differences in the tertiary and, perhaps, quaternary conformations of p25.	phloretin-pc	123-135	tubulin polymerization promoting protein	Homo sapiens	241-244
9913952-0	1996	State-selective electron capture by 18-keV Kr8+ ions from laser-excited Rb*(15p-25p) Rydberg atoms.	pyrazolo[1,5-b]pyridazine deriv. 17	43-46	tubulin polymerization promoting protein	Homo sapiens	78-83
9026359-7	1996	Granulocytic protein p25 was found to be a product of oxidative cleavage of disulfide bridges in the p50 dimer.	Disulfides	76-85	tubulin polymerization promoting protein	Homo sapiens	21-24
8718886-5	1996	12, 183-192], it is shown that the interactions of p25, the leader peptide of subunit IV of cytochrome c oxidase, with phospholipid membranes can be identified in real time.	Phospholipids	119-131	tubulin polymerization promoting protein	Homo sapiens	51-54
8718886-6	1996	p25 is observed to bind following stopped-flow mixing of the peptide with phospholipid membranes with rate constants up to about 700 s-1 and then insert into the membrane with rate constants on the order of 0.4 s-1.	Phospholipids	74-86	tubulin polymerization promoting protein	Homo sapiens	0-3
8830574-7	1996	There is a significant difference between the cord copper levels of newborns from mothers with serum copper levels less or equal to P25 or P50 and those from ones over P75, and a significant positive correlation between maternal and newborns ones.	Copper	51-57	tubulin polymerization promoting protein	Homo sapiens	132-135
7589474-1	1995	The secondary structure of the presequence of cytochrome oxidase subunit IV (p25) was studied by circular dichroism and 2D nuclear magnetic resonance in micelles of dodecylphosphocholine (DPC) and mixed micelles of DPC and mitochondrial cardiolipin (CL).	dodecylphosphocholine	165-186	tubulin polymerization promoting protein	Homo sapiens	77-80
7589474-1	1995	The secondary structure of the presequence of cytochrome oxidase subunit IV (p25) was studied by circular dichroism and 2D nuclear magnetic resonance in micelles of dodecylphosphocholine (DPC) and mixed micelles of DPC and mitochondrial cardiolipin (CL).	dodecylphosphocholine	215-218	tubulin polymerization promoting protein	Homo sapiens	77-80
7589474-1	1995	The secondary structure of the presequence of cytochrome oxidase subunit IV (p25) was studied by circular dichroism and 2D nuclear magnetic resonance in micelles of dodecylphosphocholine (DPC) and mixed micelles of DPC and mitochondrial cardiolipin (CL).	Cardiolipins	237-248	tubulin polymerization promoting protein	Homo sapiens	77-80
7589474-1	1995	The secondary structure of the presequence of cytochrome oxidase subunit IV (p25) was studied by circular dichroism and 2D nuclear magnetic resonance in micelles of dodecylphosphocholine (DPC) and mixed micelles of DPC and mitochondrial cardiolipin (CL).	dodecylphosphocholine	188-191	tubulin polymerization promoting protein	Homo sapiens	77-80
8069855-9	1994	P25 cells had some unique features among the methionine-independent phenotypes because both homocysteine remethylation and the level of 5-methyltetrahydrofolate were low in Met+Hcy- medium.	Methionine	45-55	tubulin polymerization promoting protein	Homo sapiens	0-3
7773187-1	1995	Haemoblobin (Hb) was observed to inhibit the GDP/GTP exchange activity of a low M(r) GTP-binding protein, ram p25.	Guanosine Diphosphate	45-48	tubulin polymerization promoting protein	Homo sapiens	110-113
7773187-1	1995	Haemoblobin (Hb) was observed to inhibit the GDP/GTP exchange activity of a low M(r) GTP-binding protein, ram p25.	Guanosine Triphosphate	49-52	tubulin polymerization promoting protein	Homo sapiens	110-113
7773187-2	1995	Hb also inhibited the [32P]GTP-hydrolysis activity of ram p25.	Phosphorus-32	23-26	tubulin polymerization promoting protein	Homo sapiens	58-61
7773187-2	1995	Hb also inhibited the [32P]GTP-hydrolysis activity of ram p25.	Guanosine Triphosphate	27-30	tubulin polymerization promoting protein	Homo sapiens	58-61
7773187-5	1995	Methaemoglobin (MetHb) also inhibited both [3H]GDP-dissociation and [32P]GTP-hydrolysis activities of ram p25 in a very similar manner to Hb.	Tritium	44-46	tubulin polymerization promoting protein	Homo sapiens	106-109
7773187-5	1995	Methaemoglobin (MetHb) also inhibited both [3H]GDP-dissociation and [32P]GTP-hydrolysis activities of ram p25 in a very similar manner to Hb.	Phosphorus-32	69-72	tubulin polymerization promoting protein	Homo sapiens	106-109
7773187-5	1995	Methaemoglobin (MetHb) also inhibited both [3H]GDP-dissociation and [32P]GTP-hydrolysis activities of ram p25 in a very similar manner to Hb.	Guanosine Triphosphate	73-76	tubulin polymerization promoting protein	Homo sapiens	106-109
7773187-6	1995	The results strongly suggest that Hb may suppress physiological function(s) of ram p25 in vivo by inhibiting both [32P]GTP-hydrolysis and [3H]GDP-dissociation of ram p25.	Phosphorus-32	115-118	tubulin polymerization promoting protein	Homo sapiens	83-86
7773187-6	1995	The results strongly suggest that Hb may suppress physiological function(s) of ram p25 in vivo by inhibiting both [32P]GTP-hydrolysis and [3H]GDP-dissociation of ram p25.	Guanosine Triphosphate	119-122	tubulin polymerization promoting protein	Homo sapiens	83-86
7773187-6	1995	The results strongly suggest that Hb may suppress physiological function(s) of ram p25 in vivo by inhibiting both [32P]GTP-hydrolysis and [3H]GDP-dissociation of ram p25.	Tritium	139-141	tubulin polymerization promoting protein	Homo sapiens	83-86
7773187-6	1995	The results strongly suggest that Hb may suppress physiological function(s) of ram p25 in vivo by inhibiting both [32P]GTP-hydrolysis and [3H]GDP-dissociation of ram p25.	Tritium	139-141	tubulin polymerization promoting protein	Homo sapiens	166-169
8069855-9	1994	P25 cells had some unique features among the methionine-independent phenotypes because both homocysteine remethylation and the level of 5-methyltetrahydrofolate were low in Met+Hcy- medium.	Homocysteine	92-104	tubulin polymerization promoting protein	Homo sapiens	0-3
8069855-9	1994	P25 cells had some unique features among the methionine-independent phenotypes because both homocysteine remethylation and the level of 5-methyltetrahydrofolate were low in Met+Hcy- medium.	5-methyltetrahydrofolate	136-160	tubulin polymerization promoting protein	Homo sapiens	0-3
8069855-9	1994	P25 cells had some unique features among the methionine-independent phenotypes because both homocysteine remethylation and the level of 5-methyltetrahydrofolate were low in Met+Hcy- medium.	Homocysteine	177-180	tubulin polymerization promoting protein	Homo sapiens	0-3
8120367-3	1994	Phosphorylation of p25 was inhibited by N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide (W-7), an inhibitor of calmodulin-dependent protein kinase, but not by tyrphostin nor ionomycin.	W 7	40-91	tubulin polymerization promoting protein	Homo sapiens	19-22
8120367-3	1994	Phosphorylation of p25 was inhibited by N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide (W-7), an inhibitor of calmodulin-dependent protein kinase, but not by tyrphostin nor ionomycin.	W 7	93-96	tubulin polymerization promoting protein	Homo sapiens	19-22
8120367-3	1994	Phosphorylation of p25 was inhibited by N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide (W-7), an inhibitor of calmodulin-dependent protein kinase, but not by tyrphostin nor ionomycin.	Tyrphostins	163-173	tubulin polymerization promoting protein	Homo sapiens	19-22
8120367-3	1994	Phosphorylation of p25 was inhibited by N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide (W-7), an inhibitor of calmodulin-dependent protein kinase, but not by tyrphostin nor ionomycin.	Ionomycin	178-187	tubulin polymerization promoting protein	Homo sapiens	19-22
1681618-4	1991	A single major virus-specific polypeptide of Mr = 25,000 (p25) bound to the poly(rI).poly(rC)-Sepharose.	Poly C	85-93	tubulin polymerization promoting protein	Homo sapiens	58-61
1331063-1	1992	Two cellular factors have been described, Rab3A-GAP (GTPase-activating protein) and Rab3A-GRF (guanine nucleotide releasing factor) which, respectively, accelerate the intrinsic GTPase activity of, or the rate of dissociation of GDP from, the Ras-related GTP-binding protein, p25 Rab3A.	Guanosine Diphosphate	229-232	tubulin polymerization promoting protein	Homo sapiens	276-279
1331063-1	1992	Two cellular factors have been described, Rab3A-GAP (GTPase-activating protein) and Rab3A-GRF (guanine nucleotide releasing factor) which, respectively, accelerate the intrinsic GTPase activity of, or the rate of dissociation of GDP from, the Ras-related GTP-binding protein, p25 Rab3A.	Guanosine Triphosphate	53-56	tubulin polymerization promoting protein	Homo sapiens	276-279
8262955-1	1993	Rabphilin-3A is a putative target molecule for rab3A p25/smg p25A, which is a member of a ras p21-related small GTP-binding protein and implicated in neurotransmitter release from the synapse.	Guanosine Triphosphate	112-115	tubulin polymerization promoting protein	Homo sapiens	53-56
8262955-6	1993	The GTP gamma S-bound form of rab3A p25 bound to both rabphilin-3A and the N-terminal fragment but did not bind to the C-terminal fragment.	Guanosine Triphosphate	4-7	tubulin polymerization promoting protein	Homo sapiens	36-39
8272076-6	1993	Second, treatment of class II MHC-positive B cells with leupeptin blocks the formation of p25, further indicating that this Ii fragment is generated in the endosomal compartment.	leupeptin	56-65	tubulin polymerization promoting protein	Homo sapiens	90-93
8272076-9	1993	We concluded that the p25 fragment, which is produced by proteolytic cleavage at the N-terminal side of Methionine 107, has a decreased affinity for DR molecules as compared with the p33/35 species.	Methionine	104-114	tubulin polymerization promoting protein	Homo sapiens	22-25
8386269-6	1993	Prevention of phosphorylation at S-313, by altering it to a glycine, prevented detectable phosphorylation of both LMP-1 and p25, indicating that it is a major site on both forms of the molecule.	Glycine	60-67	tubulin polymerization promoting protein	Homo sapiens	124-127
21043750-0	1993	Evidence for the Presence of a Low Mr GTP-binding Protein, ram p25, in Human Platelet Membranes.	Guanosine Triphosphate	38-41	tubulin polymerization promoting protein	Homo sapiens	63-66
21043750-2	1993	In order to clarify the presence of the ram protein (ram p25) in human platelets, we tried to purify ram p25 from the sodium cholate extract of human platelet membranes by a combination of DEAE-Sephacel, Sephacryl S300HR, hydroxyapatite HCA-100S and DEAE-Toyopearl 650(S) column chromatographies.	Sodium Cholate	118-132	tubulin polymerization promoting protein	Homo sapiens	105-108
1321836-2	1992	In this system p25 is expressed as a fusion protein which self-assembles into virus-like particles (VLPs) due to interaction of the Ty A fusion partner.	Thr-Tyr	132-134	tubulin polymerization promoting protein	Homo sapiens	15-18
1642941-6	1992	Compared with nitrous oxide, isoflurane significantly increased the latencies of the AER waves Pa (P = 0.02) and Nb (P = 0.02), and the SSER waves N20 (P = 0.001) and P25 (P = 0.04).	Isoflurane	29-39	tubulin polymerization promoting protein	Homo sapiens	167-170
1312327-0	1992	Interactions of the ras-like protein p25rab3A with Mg2+ and guanine nucleotides.	magnesium ion	51-55	tubulin polymerization promoting protein	Homo sapiens	37-40
1312327-0	1992	Interactions of the ras-like protein p25rab3A with Mg2+ and guanine nucleotides.	Guanine Nucleotides	60-79	tubulin polymerization promoting protein	Homo sapiens	37-40
1312327-5	1992	The Mg2+ binding affinity to p25rab3A.	magnesium ion	4-8	tubulin polymerization promoting protein	Homo sapiens	29-32
1681618-4	1991	A single major virus-specific polypeptide of Mr = 25,000 (p25) bound to the poly(rI).poly(rC)-Sepharose.	Sepharose	94-103	tubulin polymerization promoting protein	Homo sapiens	58-61
2389654-5	1990	The barbiturate increased the amplitudes of subcortical and early cortical components (N18, N20, P22, P25), whose latencies, however, were not significantly modified.	barbituric acid	4-15	tubulin polymerization promoting protein	Homo sapiens	102-105
1714477-8	1991	Biosynthetic labeling studies showed that p33 contained both methionine and cysteine, whereas the p25 contained only methionine.	Methionine	117-127	tubulin polymerization promoting protein	Homo sapiens	98-101
2389654-7	1990	Thiopental anesthesia produces clearer short-latency SEP recordings, from both parietal (components N20-P25) and precentral (P22, N30) areas.	Thiopental	0-10	tubulin polymerization promoting protein	Homo sapiens	104-107
34183455-9	2021	Median time (p25-p75) of administration of first-line AED (BZD) and second-line AED (non-BZD) was 11 (8-15) min and 30 (22-35) min, respectively.	Benzodiazepines	59-62	tubulin polymerization promoting protein	Homo sapiens	13-16
2153246-4	1990	p25 is, like p63/LMP, also phosphorylated (pp25) on serine and threonine residues, in the same ratio and to approximately the same extent as the intact p63/LMP molecule.	Serine	52-58	tubulin polymerization promoting protein	Homo sapiens	0-3
2153246-4	1990	p25 is, like p63/LMP, also phosphorylated (pp25) on serine and threonine residues, in the same ratio and to approximately the same extent as the intact p63/LMP molecule.	Threonine	63-72	tubulin polymerization promoting protein	Homo sapiens	0-3
2386522-4	1990	Increase in app Hb-oxygen affinity after exercise was found by measurements of p25 and by differences between plots of correlations between V O2 max and resting and post-exercise parameters of Hb-oxygen binding.	Oxygen	19-25	tubulin polymerization promoting protein	Homo sapiens	79-82
34752483-5	2021	Biochemical analysis revealed that the CpAM-resistant mutations in the context of precore protein (p25) did not affect the levels of p22 produced by signal peptidase removal of N-terminal 19 amino acid residues, but significantly reduced p17, which is produced by furin cleavage of C-terminal arginine-rich domain of p22 and secreted as HBeAg.	Arginine	293-301	tubulin polymerization promoting protein	Homo sapiens	99-102
2355012-1	1990	Significant phosphorylation (up to 1 mol of phosphate/mol of p25 subunit) occurs only when the protein is part of the eIF-4F complex.	Phosphates	44-53	tubulin polymerization promoting protein	Homo sapiens	61-64
34655964-8	2021	The calculated addition of Zn is given as median (p25 - p75).	Zinc	27-29	tubulin polymerization promoting protein	Homo sapiens	50-53
34839586-6	2022	Within the p25 sp sequence, we have identified three cysteine residues that control the efficiency of sp cleavage and contribute to proper subcellular distribution of the precore pool.	Protein Sorting Signals	15-17	tubulin polymerization promoting protein	Homo sapiens	11-14
34839586-6	2022	Within the p25 sp sequence, we have identified three cysteine residues that control the efficiency of sp cleavage and contribute to proper subcellular distribution of the precore pool.	Cysteine	53-61	tubulin polymerization promoting protein	Homo sapiens	11-14
34839586-6	2022	Within the p25 sp sequence, we have identified three cysteine residues that control the efficiency of sp cleavage and contribute to proper subcellular distribution of the precore pool.	Protein Sorting Signals	102-104	tubulin polymerization promoting protein	Homo sapiens	11-14
34152198-3	2021	OBJECTIVE: Our study sought to identify the association of trimester-specific (T1, T2, T3) prenatal Pb exposure with 5mC and 5hmC levels at multiple cytosine-phosphate-guanine sites within gene regions previously associated with prenatal Pb (HCN2, NINJ2, RAB5A, TPPP) in whole blood leukocytes of children ages 11-18 years of age.	Lead	100-102	tubulin polymerization promoting protein	Homo sapiens	262-266
34152198-3	2021	OBJECTIVE: Our study sought to identify the association of trimester-specific (T1, T2, T3) prenatal Pb exposure with 5mC and 5hmC levels at multiple cytosine-phosphate-guanine sites within gene regions previously associated with prenatal Pb (HCN2, NINJ2, RAB5A, TPPP) in whole blood leukocytes of children ages 11-18 years of age.	5hmc	125-129	tubulin polymerization promoting protein	Homo sapiens	262-266
34152198-3	2021	OBJECTIVE: Our study sought to identify the association of trimester-specific (T1, T2, T3) prenatal Pb exposure with 5mC and 5hmC levels at multiple cytosine-phosphate-guanine sites within gene regions previously associated with prenatal Pb (HCN2, NINJ2, RAB5A, TPPP) in whole blood leukocytes of children ages 11-18 years of age.	cytosine-phosphate-guanine	149-175	tubulin polymerization promoting protein	Homo sapiens	262-266
2816909-0	1989	Time-dependent cleavage of a high-mannose form of Ii to p25 in an intracellular compartment.	Mannose	34-41	tubulin polymerization promoting protein	Homo sapiens	56-59
2816909-1	1989	The cleavage of a high-mannose form of Ii to p25 was demonstrated in an intracellular compartment of B cells.	Mannose	23-30	tubulin polymerization promoting protein	Homo sapiens	45-48
2816909-5	1989	p25 molecules were reduced to about 10,500 daltons by treatment with endoglycosidases F or H. We conclude that p25 was generated from a high mannose form of Ii in the endoplasmic reticulum or cis-Golgi.	Mannose	141-148	tubulin polymerization promoting protein	Homo sapiens	0-3
2816909-5	1989	p25 molecules were reduced to about 10,500 daltons by treatment with endoglycosidases F or H. We conclude that p25 was generated from a high mannose form of Ii in the endoplasmic reticulum or cis-Golgi.	Mannose	141-148	tubulin polymerization promoting protein	Homo sapiens	111-114