PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
24863226-0	2014	Graphene-cyclodextrin-cytochrome c layered assembly with improved electron transfer rate and high supramolecular recognition capability.	Graphite	0-8	cytochrome c, somatic	Homo sapiens	22-34	
26373048-0	2015	Interface Adsorption Taking the Most Advantageous Conformation for Electron Transfer Between Graphene and Cytochrome c.	Graphite	93-101	cytochrome c, somatic	Homo sapiens	106-118	
26373048-2	2015	Here, we explored and detected the most favorable adsorption conformation of cytochrome c on graphene by measuring the adsorption energy, the number of contact atoms, and the minimal distance between protein and surface.	Graphite	93-101	cytochrome c, somatic	Homo sapiens	77-89	
26373048-4	2015	The residues, Lys, Phe and Thr contribute significantly to the adsorption of cytochrome c to graphene.	Graphite	93-101	cytochrome c, somatic	Homo sapiens	77-89	
26373048-5	2015	The long hydrophobic and flexible alkyl tail of Lys, the pi-pi stacking interaction between Phe and graphene, and the presence of abundant Thr constitute the driving force for the stable adsorption of cytochrome c on graphene.	Graphite	100-108	cytochrome c, somatic	Homo sapiens	201-213	
26373048-5	2015	The long hydrophobic and flexible alkyl tail of Lys, the pi-pi stacking interaction between Phe and graphene, and the presence of abundant Thr constitute the driving force for the stable adsorption of cytochrome c on graphene.	Graphite	217-225	cytochrome c, somatic	Homo sapiens	201-213	
26373048-6	2015	Cytochrome c is adsorbed to graphene with the group heme lying almost perpendicular to the graphene, and the distance between Fe atom and the graphene is 10.15 A, which is shorter than that between electron donor and receptor in many other biosystems.	Graphite	28-36	cytochrome c, somatic	Homo sapiens	0-12	
26373048-6	2015	Cytochrome c is adsorbed to graphene with the group heme lying almost perpendicular to the graphene, and the distance between Fe atom and the graphene is 10.15 A, which is shorter than that between electron donor and receptor in many other biosystems.	Graphite	91-99	cytochrome c, somatic	Homo sapiens	0-12	
26373048-6	2015	Cytochrome c is adsorbed to graphene with the group heme lying almost perpendicular to the graphene, and the distance between Fe atom and the graphene is 10.15 A, which is shorter than that between electron donor and receptor in many other biosystems.	Graphite	91-99	cytochrome c, somatic	Homo sapiens	0-12	
26373048-7	2015	All the results suggest that the most favorable adsorption takes the most advantageous conformation for electron transfer, which promotes significantly the electron transfer between graphene and cytochrome c.	Graphite	182-190	cytochrome c, somatic	Homo sapiens	195-207	
25548948-7	2015	The cytosolic release of Cyt c is able to dissociate the aptamer from graphene and trigger an activated fluorescence signal.	Graphite	70-78	cytochrome c, somatic	Homo sapiens	25-30	
25281124-5	2015	Graphene promotes the different rapid electron transfers that facilitate accurate and selective detection of cytochrome-c, beta-nicotinamide adenine dinucleotide, haemoglobin, biomolecules such as glucose, cholesterol, ascorbic acid, uric acid, dopamine and hydrogen peroxide.	Graphite	0-8	cytochrome c, somatic	Homo sapiens	109-121	
24863226-1	2014	This study aimed to develop a new graphene-based layered assembly, named graphene-cyclodextrin-cytochrome c with improved electron transfer rate.	Graphite	34-42	cytochrome c, somatic	Homo sapiens	95-107	
24863226-1	2014	This study aimed to develop a new graphene-based layered assembly, named graphene-cyclodextrin-cytochrome c with improved electron transfer rate.	Graphite	73-81	cytochrome c, somatic	Homo sapiens	95-107	
23598212-5	2013	It has been substantiated that PTCA-graphene is a preferable biocompatible matrix for Cyt c.	Graphite	36-44	cytochrome c, somatic	Homo sapiens	86-91	
24492631-0	2014	Screen-printed graphite macroelectrodes for the direct electron transfer of cytochrome c: a deeper study of the effect of pH on the conformational states, immobilization and peroxidase activity.	Graphite	15-23	cytochrome c, somatic	Homo sapiens	76-88	
24492631-1	2014	The direct electron transfer of cytochrome c has been studied at screen-printed graphite macroelectrodes without recourse to mediators or the need for any electrode pre-treatment as is commonly employed within the literature.	Graphite	80-88	cytochrome c, somatic	Homo sapiens	32-44	
23851983-0	2013	Self-assembled graphene quantum dots induced by cytochrome c: a novel biosensor for trypsin with remarkable fluorescence enhancement.	Graphite	15-23	cytochrome c, somatic	Homo sapiens	48-60	
23851983-1	2013	On the basis of cytochrome c-induced self-assembled graphene quantum dots, we demonstrate a novel fluorescent biosensor for trypsin with remarkable fluorescence enhancement, as well as high selectivity and sensitivity.	Graphite	52-60	cytochrome c, somatic	Homo sapiens	16-28	
23598212-0	2013	Direct electron transfer of Cytochrome c at mono-dispersed and negatively charged perylene-graphene matrix.	Graphite	91-99	cytochrome c, somatic	Homo sapiens	28-40	
23598212-2	2013	PTCA-graphene with plenty of -COOH groups as electrostatic absorbing sites were beneficial to the loading of Cytochrome c (Cyt c).	Graphite	5-13	cytochrome c, somatic	Homo sapiens	109-121	
23598212-2	2013	PTCA-graphene with plenty of -COOH groups as electrostatic absorbing sites were beneficial to the loading of Cytochrome c (Cyt c).	Graphite	5-13	cytochrome c, somatic	Homo sapiens	123-128	
23598212-3	2013	Cyt c, which was tightly immobilized on the PTCA-graphene modified glassy carbon electrode, maintained its natural conformation.	Graphite	49-57	cytochrome c, somatic	Homo sapiens	0-5	
21461416-0	2011	Screen printed graphite macroelectrodes for the direct electron transfer of cytochrome c.	Graphite	15-23	cytochrome c, somatic	Homo sapiens	76-88	
22261736-1	2012	The greatly improved catalytic and electrochemical properties of cytochrome C (cyt C) in a confined environment have been achieved by assembling cyt C within sulfonated graphene (G-SO(3)H) nanosheets.	Graphite	169-177	cytochrome c, somatic	Homo sapiens	65-77	
22261736-1	2012	The greatly improved catalytic and electrochemical properties of cytochrome C (cyt C) in a confined environment have been achieved by assembling cyt C within sulfonated graphene (G-SO(3)H) nanosheets.	Graphite	169-177	cytochrome c, somatic	Homo sapiens	79-84	
22261736-1	2012	The greatly improved catalytic and electrochemical properties of cytochrome C (cyt C) in a confined environment have been achieved by assembling cyt C within sulfonated graphene (G-SO(3)H) nanosheets.	Graphite	169-177	cytochrome c, somatic	Homo sapiens	145-150	
21461416-1	2011	We report the direct electrochemistry of cytochrome c at screen printed graphite electrodes which exhibits quasi-reversible voltammetric responses without the need for any chemical or electrochemical pre-treatment, use of mediators or nanomaterials.	Graphite	72-80	cytochrome c, somatic	Homo sapiens	41-53	
21461416-2	2011	Through voltammetric studies and X-ray photoelectron spectroscopy (XPS) it is shown that carbonyl and carboxylic surface oxygenated species likely residing at edge plane like- sites/defects of the graphite comprising the screen printed electrodes are responsible for the favourable interaction of the cytochrome c with that of the screen printed electrochemical sensing platform.	Graphite	197-205	cytochrome c, somatic	Homo sapiens	301-313	
35608556-3	2022	Herein, biohybrid graphene-based layer-by-layer structures are prepared by means of conventional and surfactant-assisted Langmuir-Schaefer layer deposition techniques, whereby cytochrome c molecules are accommodated within ordered layers of graphene oxide.	Graphite	18-26	cytochrome c, somatic	Homo sapiens	176-188	
15379504-1	2004	The redox reaction of cytochrome c immobilized on the bare surfaces of microelectrodes and macroscopic electrodes (macroelectrodes) composed of different planes of highly oriented pyrolytic graphite has been investigated using cyclic voltammetry.	Graphite	190-198	cytochrome c, somatic	Homo sapiens	22-34	
17049163-3	2006	Experimental results revealed that modification of cardiolipin onto the surface of a pyrolytic graphite electrode could lead to a rapid direct electron transfer of cytochrome c through the electrostatic interaction between the protein and the cardiolipin.	Graphite	95-103	cytochrome c, somatic	Homo sapiens	164-176	
9352371-0	1997	Scanning tunnelling microscopy observation of cytochrome-c denaturation induced by bromopyrogal red on highly oriented pyrolytic graphite.	Graphite	129-137	cytochrome c, somatic	Homo sapiens	46-58	
9352371-1	1997	The denaturation of cytochrome-c (cyt-c) induced by bromopyrogal red (BPR) was studied by scanning tunnelling microscopy (STM) on the electrochemically pretreated highly oriented pyrolytic graphite (HOPG) surface.	Graphite	189-197	cytochrome c, somatic	Homo sapiens	20-32	
9352371-1	1997	The denaturation of cytochrome-c (cyt-c) induced by bromopyrogal red (BPR) was studied by scanning tunnelling microscopy (STM) on the electrochemically pretreated highly oriented pyrolytic graphite (HOPG) surface.	Graphite	189-197	cytochrome c, somatic	Homo sapiens	34-39	
2159330-1	1990	The direct electrochemistry of the cytochrome c/cytochrome b5 and cytochrome c/plastocyanin complexes has been investigated at edge-plane graphite and modified gold electrode surfaces, which are selective for one of the two components of the complex.	Graphite	138-146	cytochrome c, somatic	Homo sapiens	35-47	
2159330-1	1990	The direct electrochemistry of the cytochrome c/cytochrome b5 and cytochrome c/plastocyanin complexes has been investigated at edge-plane graphite and modified gold electrode surfaces, which are selective for one of the two components of the complex.	Graphite	138-146	cytochrome c, somatic	Homo sapiens	66-78	
33011265-1	2020	An improved cytochrome c (Cyt c) biosensor based on immobilization of cytochrome c oxidase (COx) on the surface of graphene oxide nanoparticles (GONPs) electrodeposited onto pencil graphite (PG) electrode.	Graphite	181-189	cytochrome c, somatic	Homo sapiens	12-24	
33011265-1	2020	An improved cytochrome c (Cyt c) biosensor based on immobilization of cytochrome c oxidase (COx) on the surface of graphene oxide nanoparticles (GONPs) electrodeposited onto pencil graphite (PG) electrode.	Graphite	181-189	cytochrome c, somatic	Homo sapiens	26-31	
31951423-0	2020	Enhancing Peroxidase Activity of Cytochrome c by Modulating Interfacial Interaction Forces with Graphene Oxide.	Graphite	96-110	cytochrome c, somatic	Homo sapiens	33-45	
31951423-4	2020	In this study, by combination of solution chemistry and spectroscopy, we systematically studied the interfacial interaction between GO and cyt c.	Graphite	132-134	cytochrome c, somatic	Homo sapiens	139-144	
31951423-5	2020	Results suggest that GO could slightly perturb the active site of cyt c, enhancing its peroxidase activity.	Graphite	21-23	cytochrome c, somatic	Homo sapiens	66-71	
31951423-7	2020	Further study suggests that adsorption of cyt c on GO and the resulted structure change is a complex process resulting from the cooperation of various interaction forces.	Graphite	51-53	cytochrome c, somatic	Homo sapiens	42-47	
31951423-9	2020	Furthermore, long range electrostatic attraction between GO and cyt c may facilitate the short range hydrogen-bonding interaction, which intensifies the hydrogen-bonding-induced structural change.	Graphite	57-59	cytochrome c, somatic	Homo sapiens	64-69	
31951423-10	2020	In addition, cyt c is partially reduced by GO in an alkaline environment.	Graphite	43-45	cytochrome c, somatic	Homo sapiens	13-18	
31951423-11	2020	Based on the understanding of interfacial interaction mechanism between GO and cyt c, stable nanocomposites with enhanced peroxidase activity are successfully constructed by modulating the interfacial interaction forces.	Graphite	72-74	cytochrome c, somatic	Homo sapiens	79-84	
32264446-0	2017	Graphene quantum dots supported by graphene oxide as a sensitive fluorescence nanosensor for cytochrome c detection and intracellular imaging.	Graphite	0-8	cytochrome c, somatic	Homo sapiens	93-105	
31451698-5	2019	Using the graphene-based electrochemical microscopy, we show the capability to quantitatively measure the attocoulomb-scale electron transfer in cytochrome c adsorbed at a single nanoelectrode.	Graphite	10-18	cytochrome c, somatic	Homo sapiens	145-157	
30128226-0	2018	Real-Time Cellular Cytochrome C Monitoring through an Optical Microfiber: Enabled by a Silver-Decorated Graphene Nanointerface.	Graphite	104-112	cytochrome c, somatic	Homo sapiens	19-31	
30128226-3	2018	This study reports an optical microfiber aptasensor with a silver-decorated graphene (Ag@RGO) nanointerface for real-time cellular cyt c monitoring.	Graphite	76-84	cytochrome c, somatic	Homo sapiens	131-136	
29188239-6	2017	After a spatially selective delivery into the cytoplasm, the Cy5-tagged DNA aptamer assembled on the nanosensor can bind with Cyt c released from the mitochondria to the cytoplasm and dissociate from graphene, triggering a red fluorescence signal.	Graphite	200-208	cytochrome c, somatic	Homo sapiens	126-131	
32264446-1	2017	A new class of cytochrome c (Cyt c) detection fluorescence sensor (GQDs-GO) based on graphene quantum dots (GQDs) supported by graphene oxide (GO) has been developed through simply mixing a certain amount of GQDs and GO.	Graphite	85-93	cytochrome c, somatic	Homo sapiens	15-27	
32264446-1	2017	A new class of cytochrome c (Cyt c) detection fluorescence sensor (GQDs-GO) based on graphene quantum dots (GQDs) supported by graphene oxide (GO) has been developed through simply mixing a certain amount of GQDs and GO.	Graphite	85-93	cytochrome c, somatic	Homo sapiens	29-34	
28013020-0	2017	Nitrogen-doped graphene quantum dots-labeled epitope imprinted polymer with double templates via the metal chelation for specific recognition of cytochrome c.	Graphite	15-23	cytochrome c, somatic	Homo sapiens	145-157	
28013020-1	2017	A novel fluorescent sensor nitrogen-doped graphene quantum dots (N-GQDs)/SiO2/molecular imprinting polymer(N-GQDs/SiO2/MIP)was fabricated by surface imprinting and epitope imprinting to recognize and detect the target protein cytochrome c (Cyt C) with fluorescence quenching.	Graphite	42-50	cytochrome c, somatic	Homo sapiens	226-238	
28013020-1	2017	A novel fluorescent sensor nitrogen-doped graphene quantum dots (N-GQDs)/SiO2/molecular imprinting polymer(N-GQDs/SiO2/MIP)was fabricated by surface imprinting and epitope imprinting to recognize and detect the target protein cytochrome c (Cyt C) with fluorescence quenching.	Graphite	42-50	cytochrome c, somatic	Homo sapiens	240-245