PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
13871326-0	1961	[The use of lysozyme in association with vitamins K and C].	Carbon	56-57	lysozyme	Homo sapiens	12-20	
34293531-4	2021	EXPERIMENTS: We presented a phase-transition lysozyme coating approach to fabricate porous carbon nanotube microspheres with tailorable surface wettability areas for versatile oil adsorption.	Carbon	91-97	lysozyme	Homo sapiens	45-53	
35226788-4	2022	To verify the validity of these observations, the adsorption behavior of lysozyme onto optically transparent carbon electrodes was also investigated under the influence of an applied alternating potential.	Carbon	109-115	lysozyme	Homo sapiens	73-81	
35113103-4	2022	Here, using all-atom solvent explicit molecular dynamics simulations, we further investigate the molecular origin of the variation of this ESP for two prototypical cases of proteins or nucleic acids attached to a carbon nanotube bioFET: the function of the lysozyme protein and the hybridization of a 10-nt DNA sequence, as previously done experimentally.	Carbon	213-219	lysozyme	Homo sapiens	257-265	
34779209-7	2021	By synchronous fluorescence and circular dichroism spectroscopic studies, it was deduced that both AuNCs would interact with Lys by electrostatic attractions due to the distinct surface charges, and then DHLA-AuNCs would further interact with Lys by hydrophobic interactions, probably due to the hydrophobic carbon chain of DHLA and the hydrophobic side chains of amino acid residues in Lys, which was proved by the significant secondary structure changes caused by DHLA-AuNCs.	Carbon	308-314	lysozyme	Homo sapiens	243-246	
32064386-0	2020	Comparison of Attachment and Antibacterial Activity of Covalent and Noncovalent Lysozyme-Functionalized Single-Walled Carbon Nanotubes.	Carbon	118-124	lysozyme	Homo sapiens	80-88	
32498866-0	2020	Zwitterionic polymer chain-assisted lysozyme imprinted core-shell carbon microspheres with enhanced recognition and selectivity.	Carbon	66-72	lysozyme	Homo sapiens	36-44	
32498866-2	2020	In this work, upon the participating of a zwitterionic polymer chain (Poly (1-vinyl-3-sulfopropylimidazolium), PVSP), a lysozyme imprinted core-shell carbon microsphere (CFC-PVSP@MIPs) was prepared by combining template immobilization method and surface imprinting technology.	Carbon	150-156	lysozyme	Homo sapiens	120-128	
32146425-0	2020	Design a fluorometric aptasensor based on CoOOH nanosheets and carbon dots for simultaneous detection of lysozyme and adenosine triphosphate.	Carbon	63-69	lysozyme	Homo sapiens	105-113	
32314017-3	2020	When lysozyme was added, the aptamer specifically binds to the lysozyme, causing the signal tag to detach from the magnetic carboxylated carbon nanotubes.	Carbon	137-143	lysozyme	Homo sapiens	5-13	
32314017-3	2020	When lysozyme was added, the aptamer specifically binds to the lysozyme, causing the signal tag to detach from the magnetic carboxylated carbon nanotubes.	Carbon	137-143	lysozyme	Homo sapiens	63-71	
32314017-5	2020	The released lysozyme can be recombined with the signal tag adsorbed on the magnetic carboxylated carbon nanotube, allowing more signal tag to be dispersed into the solution.	Carbon	98-104	lysozyme	Homo sapiens	13-21	
32064386-1	2020	Carbon nanotube-lysozyme (LSZ) conjugates provide an attractive combination of high strength and antimicrobial activity.	Carbon	0-6	lysozyme	Homo sapiens	16-24	
31209550-0	2019	Fluorescent probe based on carbon dots/silica/molecularly imprinted polymer for lysozyme detection and cell imaging.	Carbon	27-33	lysozyme	Homo sapiens	80-88	
23629536-8	2013	The amount of adsorbed BSA increased in the following order: HA-pH 4.0, HA-pH 2.0, HA-40 C and HA-80 C. The amount of adsorbed LSZ on HA increased in the following order--HA-pH 2.0, HA-pH 4.0, HA-40 C and HA-80 C--with a corresponding decrease in the a/c intensity ratio.	Carbon	89-90	lysozyme	Homo sapiens	127-130	
26452937-0	2015	Novel polydopamine imprinting layers coated magnetic carbon nanotubes for specific separation of lysozyme from egg white.	Carbon	53-59	lysozyme	Homo sapiens	97-105	
26452937-1	2015	Novel core-shell nanocomposites, consisting of magnetic carbon nanotubes (MCNTs) core surrounded by a thin polydopamine (PDA) imprinting shell for specific recognition of lysozyme (Lyz), were fabricated for the first time.	Carbon	56-62	lysozyme	Homo sapiens	171-179	
23524103-0	2013	Lysozyme binds onto functionalized carbon nanotubes.	Carbon	35-41	lysozyme	Homo sapiens	0-8	
31036225-0	2019	A chemiluminescence biosensor for lysozyme detection based on aptamers and hemin/G-quadruplex DNAzyme modified sandwich-rod carbon fiber composite.	Carbon	124-130	lysozyme	Homo sapiens	34-42	
31036225-1	2019	In our work, aptamers and hemin/G-quadruplex DNAzyme modified sandwich-rod graphene quantum dots @ graphene oxide @ carbon fiber composite (DNAzyme/L-Apt/GQDs@GO@CF) was successfully prepared for sensitive and selective chemiluminescence (CL) detection of lysozyme (LZM).	Carbon	116-122	lysozyme	Homo sapiens	256-264	
31036225-1	2019	In our work, aptamers and hemin/G-quadruplex DNAzyme modified sandwich-rod graphene quantum dots @ graphene oxide @ carbon fiber composite (DNAzyme/L-Apt/GQDs@GO@CF) was successfully prepared for sensitive and selective chemiluminescence (CL) detection of lysozyme (LZM).	Carbon	116-122	lysozyme	Homo sapiens	266-269	
31036225-5	2019	Then, the modified sandwich-rod carbon fiber composite was applied to the construction of CL biosensor for LZM detection.	Carbon	32-38	lysozyme	Homo sapiens	107-110	
31458078-8	2018	The comparison of the energy contributions to the binding between C60 or Gd@C60 and lysozyme suggests that, although shape complementarity remains the driving force of the binding, the presence of electron transfer from the gadolinium atom to the carbon cage induces a charge distribution on the fullerene cage that strongly affects its interaction with the protein.	Carbon	247-253	lysozyme	Homo sapiens	84-92	
29594452-0	2018	Lysozyme aptasensor based on a glassy carbon electrode modified with a nanocomposite consisting of multi-walled carbon nanotubes, poly(diallyl dimethyl ammonium chloride) and carbon quantum dots.	Carbon	38-44	lysozyme	Homo sapiens	0-8	
29594452-0	2018	Lysozyme aptasensor based on a glassy carbon electrode modified with a nanocomposite consisting of multi-walled carbon nanotubes, poly(diallyl dimethyl ammonium chloride) and carbon quantum dots.	Carbon	112-118	lysozyme	Homo sapiens	0-8	
29594452-0	2018	Lysozyme aptasensor based on a glassy carbon electrode modified with a nanocomposite consisting of multi-walled carbon nanotubes, poly(diallyl dimethyl ammonium chloride) and carbon quantum dots.	Carbon	112-118	lysozyme	Homo sapiens	0-8	
27015265-3	2016	Herein, we show the interest of vertically aligned nitrogen-doped carbon nanotube (VA-NCNT) electrodes for the required sensitive electrochemical detection of lysozyme in serum, a protein that is up-regulated in IBD.	Carbon	66-72	lysozyme	Homo sapiens	159-167	
26143467-1	2015	In this study, we reported iminodiacetic acid-copper ion complex (IDA-Cu) immobilized onto gold nanoparticles (GNPs)-modified glassy carbon electrode as a novel electrochemical platform for selective and sensitive determination of lysozyme (Lys).	Carbon	133-139	lysozyme	Homo sapiens	231-239	
25905497-2	2015	In the sensing strategy, an anti-lysozyme aptamer was immobilized onto the carbon electrode surface by covalent binding via diazonium salt chemistry.	Carbon	75-81	lysozyme	Homo sapiens	33-41	
23629536-8	2013	The amount of adsorbed BSA increased in the following order: HA-pH 4.0, HA-pH 2.0, HA-40 C and HA-80 C. The amount of adsorbed LSZ on HA increased in the following order--HA-pH 2.0, HA-pH 4.0, HA-40 C and HA-80 C--with a corresponding decrease in the a/c intensity ratio.	Carbon	29-30	lysozyme	Homo sapiens	127-130	
22608421-0	2012	Dynamic layer-by-layer self-assembly of multi-walled carbon nanotubes on quartz wool for on-line separation of lysozyme in egg white.	Carbon	53-59	lysozyme	Homo sapiens	111-119	
22354722-0	2012	Probing the structure of lysozyme-carbon-nanotube hybrids with molecular dynamics.	Carbon	34-40	lysozyme	Homo sapiens	25-33	
22354722-1	2012	Lysozyme has been successfully used to solvate carbon nanotubes (CNT).	Carbon	47-53	lysozyme	Homo sapiens	0-8	
22267809-1	2012	Tethering a single lysozyme molecule to a carbon nanotube field-effect transistor produced a stable, high-bandwidth transducer for protein motion.	Carbon	42-48	lysozyme	Homo sapiens	19-27	
22200651-0	2012	Label-free impedimetric aptasensor for lysozyme detection based on carbon nanotube-modified screen-printed electrodes.	Carbon	67-73	lysozyme	Homo sapiens	39-47	
22200651-3	2012	An amino-modified version of the DNA aptamer-recognizing lysozyme was covalently immobilized on the surface of multiwalled carbon nanotube-modified screen-printed electrodes (MWCNT-SPEs), which were employed for measurements and have improved properties compared with bare SPEs.	Carbon	123-129	lysozyme	Homo sapiens	57-65	
22200651-4	2012	This carbon nanotube setup enabled the reliable monitoring of the interaction of lysozyme with its cognate aptamer by EIS transduction of the resistance to charge transfer (R(ct)) in the presence of 2.5 mM [Fe(CN)6]3-/4-.	Carbon	5-11	lysozyme	Homo sapiens	81-89	
21207953-1	2011	We report here a carbon nanotube-based approach for label-free and time-resolved luminescent assay of lysozyme (LYS) by engineering an antilysozyme aptamer and luminescent europium(III) (Eu(3+)) complex.	Carbon	17-23	lysozyme	Homo sapiens	102-110	
21456701-2	2011	Motivated by the many nanoengineering applications of protein-carbon nanotube hybrids, we investigate the conformational transitions of hen egg white lysozyme adsorbed on a carbon nanotube.	Carbon	173-179	lysozyme	Homo sapiens	150-158	
16851717-1	2005	The adsorption of lysozyme (Lz) onto nanoporous carbon molecular sieves with various pore diameters has been studied at different solution pH values.	Carbon	48-54	lysozyme	Homo sapiens	18-26	
20964299-5	2010	Carbon nanotube conjugates with adsorbed lysozyme interacted with the liposome through electrostatic interaction, leading to liposome leakage.	Carbon	0-6	lysozyme	Homo sapiens	41-49	
29308103-0	2010	Single-Walled Carbon Nanotubes Probing the Denaturation of Lysozyme.	Carbon	14-20	lysozyme	Homo sapiens	59-67	
29308103-1	2010	Resonance Raman spectroscopy measurements of lysozyme-bound single-walled carbon nanotubes have been made during different stages of the chemically and thermally induced misfolding and of the denaturation process of nanotube-bound lysozymes.	Carbon	74-80	lysozyme	Homo sapiens	45-53	
29308103-2	2010	Changes to the Raman intensity of single-walled carbon nanotubes (SWNTs) have been observed during the denaturation of lysozyme.	Carbon	48-54	lysozyme	Homo sapiens	119-127	
19729169-0	2009	Adsorption of lysozyme on spherical mesoporous carbons (SMCs) replicated from colloidal silica arrays by chemical vapor deposition.	Carbon	47-54	lysozyme	Homo sapiens	14-22	
17193060-1	2006	Highly dispersed and debundled carbon nanotubes were prepared in an aqueous solution of lysozyme using a combination of ultrasonication and ultracentrifugation.	Carbon	31-37	lysozyme	Homo sapiens	88-96	
16851717-1	2005	The adsorption of lysozyme (Lz) onto nanoporous carbon molecular sieves with various pore diameters has been studied at different solution pH values.	Carbon	48-54	lysozyme	Homo sapiens	28-30	
16851717-5	2005	Moreover, the amount adsorbed depends on the pore size and pore volume of the nanoporous carbon adsorbents, indicating that the Lz molecules are adsorbed inside the mesopores.	Carbon	89-95	lysozyme	Homo sapiens	128-130	
16851717-9	2005	In addition, FT-IR spectroscopic studies confirm that the Lz used in this study is stable even after the adsorption on the nanoporous carbon.	Carbon	134-140	lysozyme	Homo sapiens	58-60