PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
28213236-3	2017	By adsorbing Tri-n-butyl phosphate (TBP)/n-dodecane solution to prepare GA-LOS, the extraction of U(VI) from nitric acid medium using GA-LOS was investigated and compared with conventional solvent extraction.	Nitric Acid	109-120	TATA-box binding protein	Homo sapiens	36-39	
32548399-2	2020	A H2O-HNO3-UO2(NO3)2-TBP (tri-n-butyl phosphate)-diluent system is commonly used for uranium separation and purification in liquid-liquid extraction.	Nitric Acid	6-10	TATA-box binding protein	Homo sapiens	21-24	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	42-53	TATA-box binding protein	Homo sapiens	90-93	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	42-53	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	42-53	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	42-53	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	123-134	TATA-box binding protein	Homo sapiens	90-93	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	123-134	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	123-134	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	123-134	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	84-88	TATA-box binding protein	Homo sapiens	90-93	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	187-191	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	187-191	TATA-box binding protein	Homo sapiens	105-108	
32548399-8	2020	The predicted results show that water and nitric acid were extracted as di-solvates HNO3 (TBP)2 H2O and (TBP)2 2H2O at low nitric acid concentrations, with the formation of mono-solvates HNO3 TBP and HNO3 TBP H2O as the acid concentration increased.	Nitric Acid	187-191	TATA-box binding protein	Homo sapiens	105-108	
28265606-2	2017	Glassy carbon electrodes were used to show that Pu(iv) and Pu(vi) complexes display a reversible electrochemical reduction wave in TBP previously equilibrated with aqueous nitric acid solution.	Nitric Acid	172-183	TATA-box binding protein	Homo sapiens	131-134	
28265606-4	2017	The formal potentials of the two redox couples were respectively 0.510 +- 0.005 and 0.478 +- 0.005 V per SCE in TBP equilibrated with 3 mol L-1 nitric acid at room temperature.	Nitric Acid	144-155	TATA-box binding protein	Homo sapiens	112-115	
16833878-0	2005	Effect of the TBP and water on the complexation of uranyl nitrate and the dissolution of nitric acid into supercritical CO2.	Nitric Acid	89-100	TATA-box binding protein	Homo sapiens	14-17	
24601645-2	2014	For this purpose, we first compare several electrostatic representations of TBP with regards to its polarity and conformational properties, its interactions with H2O, HNO3, and UO2(NO3)2 species, its relative free energies of solvation in water or oil environments, the properties of the pure TBP liquid and of the pure-TBP/water interface.	Nitric Acid	167-171	TATA-box binding protein	Homo sapiens	76-79	
21445434-1	2011	Uranium dioxide can be dissolved directly in an imidazolium-based ionic liquid (IL) at room temperature with a tri-n-butylphosphate(TBP)-HNO(3) complex.	Nitric Acid	137-143	TATA-box binding protein	Homo sapiens	132-135	
16833878-2	2005	We report theoretical studies on the complexation of uranyl nitrate and the dissolution of nitric acid in supercritical CO2 by TBP.	Nitric Acid	91-102	TATA-box binding protein	Homo sapiens	127-130	
16833878-3	2005	According to quantum mechanical calculations, TBP (modeled by trimethyl phosphate TMP) displays stronger hydrogen-bonding interactions with HNO3 than with H2O, and this has been modeled in force-field calculations.	Nitric Acid	140-144	TATA-box binding protein	Homo sapiens	46-49	
16833878-5	2005	In MD simulations, which started from "random" mixtures of water, TBP, nitric acid, and uranyl nitrate, complexation of uranyl by TBP is observed and the yield increases with the TBP concentration.	Nitric Acid	71-82	TATA-box binding protein	Homo sapiens	130-133	
16833878-5	2005	In MD simulations, which started from "random" mixtures of water, TBP, nitric acid, and uranyl nitrate, complexation of uranyl by TBP is observed and the yield increases with the TBP concentration.	Nitric Acid	71-82	TATA-box binding protein	Homo sapiens	130-133	
16833878-6	2005	TBP molecules are also necessary to dissolve nitric acid in the supercritical phase.	Nitric Acid	45-56	TATA-box binding protein	Homo sapiens	0-3	
16833878-9	2005	The simulations show that a high TBP/nitric acid ratio is needed to fully dissolve the acid in the supercritical phase and to form CO2-philic UO2(NO3)2(TBP)2 complexes.	Nitric Acid	37-48	TATA-box binding protein	Homo sapiens	33-36	
12940050-4	2002	Hg is extracted by KI + HNO3 + (NH2)2CS into TBP and hydride generation by proposed method.	Nitric Acid	24-28	TATA-box binding protein	Homo sapiens	45-48	
12240354-1	2001	Uranium dioxide can be dissolved in supercritical CO2 with a CO2-philic TBP-HNO3 complexant to form a highly soluble UO2(NO3)(2).2TBP complex; this new method of dissolving UO2 that requires no water or organic solvent may have important applications for reprocessing of spent nuclear fuels and for treatment of nuclear wastes.	Nitric Acid	76-80	TATA-box binding protein	Homo sapiens	72-75	
12240354-1	2001	Uranium dioxide can be dissolved in supercritical CO2 with a CO2-philic TBP-HNO3 complexant to form a highly soluble UO2(NO3)(2).2TBP complex; this new method of dissolving UO2 that requires no water or organic solvent may have important applications for reprocessing of spent nuclear fuels and for treatment of nuclear wastes.	Nitric Acid	76-80	TATA-box binding protein	Homo sapiens	130-133	
34973572-2	2022	In this study an environmentally sustainable process using supercritical carbon dioxide as the solvent, along with a small volume of tributyl-phosphate-nitric acid (TBP-HNO3) adduct as the chelating agent, is developed to extract rare earth elements (REEs) from fluorescent lamp waste.	Nitric Acid	152-163	TATA-box binding protein	Homo sapiens	165-168	
34973572-5	2022	Furthermore, UV visible spectroscopy is performed to determine the coordination chemistry of the rare earths of interest, i.e., yttrium, europium, and terbium during the complexation with TBP-HNO3 adduct.	Nitric Acid	192-196	TATA-box binding protein	Homo sapiens	188-191	
34973572-6	2022	It is found that Al3+ and Ca2+ cations from the aluminium oxide (Al2O3) and hydroxyapatite (Ca5(PO4)3OH) present in the fluorescent lamp waste compete with REEs in reacting with TBP-HNO3 adduct; hence, REE extractions from real fluorescent lamp waste is less than previously reported extractions from synthetic feeds.	Nitric Acid	182-186	TATA-box binding protein	Homo sapiens	178-181