PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33455332-0	2020	Effects of the Hydrophobicity of Key Residues on the Characteristics and Stability of Glucose Oxidase on a Graphene Surface.	Graphite	107-115	hydroxyacid oxidase 1	Homo sapiens	86-101	
33455332-4	2020	To develop a hybrid enzyme-graphene nanodevice with a good performance, it is important that GOx is deposited well on the graphene surface while maintaining its structure and not impeding the oxidation activity of the GOx.	Graphite	27-35	hydroxyacid oxidase 1	Homo sapiens	93-96	
33455332-4	2020	To develop a hybrid enzyme-graphene nanodevice with a good performance, it is important that GOx is deposited well on the graphene surface while maintaining its structure and not impeding the oxidation activity of the GOx.	Graphite	27-35	hydroxyacid oxidase 1	Homo sapiens	218-221	
33455332-4	2020	To develop a hybrid enzyme-graphene nanodevice with a good performance, it is important that GOx is deposited well on the graphene surface while maintaining its structure and not impeding the oxidation activity of the GOx.	Graphite	122-130	hydroxyacid oxidase 1	Homo sapiens	93-96	
33455332-5	2020	In this study, we propose a method to improve the stability of GOx and secure its immobility on the graphene sheet and its glucose-binding affinity by single-point mutation of GOx using molecular dynamics simulations.	Graphite	100-108	hydroxyacid oxidase 1	Homo sapiens	63-66	
33455332-5	2020	In this study, we propose a method to improve the stability of GOx and secure its immobility on the graphene sheet and its glucose-binding affinity by single-point mutation of GOx using molecular dynamics simulations.	Graphite	100-108	hydroxyacid oxidase 1	Homo sapiens	176-179	
27524075-6	2016	The use of graphene in the immobilization of GOx promoted Direct Electron Transfer, which was evaluated by Cyclic Voltammetry.	Graphite	11-19	hydroxyacid oxidase 1	Homo sapiens	45-48	
31546385-0	2019	Glucose oxidase immobilized amine terminated multiwall carbon nanotubes/reduced graphene oxide/polyaniline/gold nanoparticles modified screen-printed carbon electrode for highly sensitive amperometric glucose detection.	Graphite	80-94	hydroxyacid oxidase 1	Homo sapiens	0-15	
31664095-1	2019	State-of-the-art ultra-sensitive blood glucose-monitoring biosensors, based on glucose oxidase (GOx) covalently linked to a single layer graphene (SLG), will be a valuable next generation diagnostic tool for personal glycemic level management.	Graphite	137-145	hydroxyacid oxidase 1	Homo sapiens	96-99	
31664095-2	2019	We report here our observations of sensor matrix structure obtained using a multi-physics approach towards analysis of small-angle neutron scattering (SANS) on graphene-based biosensor functionalized with GOx under different pH conditions for various hierarchical GOx assemblies within SLG.	Graphite	160-168	hydroxyacid oxidase 1	Homo sapiens	205-208	
31664095-2	2019	We report here our observations of sensor matrix structure obtained using a multi-physics approach towards analysis of small-angle neutron scattering (SANS) on graphene-based biosensor functionalized with GOx under different pH conditions for various hierarchical GOx assemblies within SLG.	Graphite	160-168	hydroxyacid oxidase 1	Homo sapiens	264-267	
30870640-3	2019	We report here for the first time, a low cost lab-on-a-screen-printed electrochemical cell (SPC) based on iron-sparked graphite working electrode modified with glucose oxidase (GOx) and glucose hydrogel droplets (GluHD) for the detection of flunitrazepam.	Graphite	119-127	hydroxyacid oxidase 1	Homo sapiens	160-175	
30870640-3	2019	We report here for the first time, a low cost lab-on-a-screen-printed electrochemical cell (SPC) based on iron-sparked graphite working electrode modified with glucose oxidase (GOx) and glucose hydrogel droplets (GluHD) for the detection of flunitrazepam.	Graphite	119-127	hydroxyacid oxidase 1	Homo sapiens	177-180	
31664095-1	2019	State-of-the-art ultra-sensitive blood glucose-monitoring biosensors, based on glucose oxidase (GOx) covalently linked to a single layer graphene (SLG), will be a valuable next generation diagnostic tool for personal glycemic level management.	Graphite	137-145	hydroxyacid oxidase 1	Homo sapiens	79-94	
31632005-5	2019	Methods: Herein, the investigators modified the interdigitated (di)electrodes (IDE) sensing surface to detect the glucose on covalently immobilized glucose oxidase (GOx) with the graphene.	Graphite	179-187	hydroxyacid oxidase 1	Homo sapiens	148-163	
31632005-5	2019	Methods: Herein, the investigators modified the interdigitated (di)electrodes (IDE) sensing surface to detect the glucose on covalently immobilized glucose oxidase (GOx) with the graphene.	Graphite	179-187	hydroxyacid oxidase 1	Homo sapiens	165-168	
30616214-6	2019	The tested graphene materials doped with ferrocene moieties were used as a bioactive platform for glucose oxidase (GOx) immobilization.	Graphite	11-19	hydroxyacid oxidase 1	Homo sapiens	98-113	
30616214-6	2019	The tested graphene materials doped with ferrocene moieties were used as a bioactive platform for glucose oxidase (GOx) immobilization.	Graphite	11-19	hydroxyacid oxidase 1	Homo sapiens	115-118	
30616214-8	2019	Ferrocene moieties present at the graphene surface play the role of mediator in the electron transfer between the redox center of GOx and the electrode surface.	Graphite	34-42	hydroxyacid oxidase 1	Homo sapiens	130-133	
30412378-8	2018	The GOx-loaded microcapsules were immobilized on a variety of surfaces (here, inside a flow channel, on a carbon-coated sensor or a graphite rod) and glucose concentrations up to 10 mM could successfully be measured.	Graphite	132-140	hydroxyacid oxidase 1	Homo sapiens	4-7	
28551130-0	2017	Reagent-less amperometric glucose biosensor based on a graphite rod electrode layer-by-layer modified with 1,10-phenanthroline-5,6-dione and glucose oxidase.	Graphite	55-63	hydroxyacid oxidase 1	Homo sapiens	141-156	
27524025-6	2016	The triethylenetetramine-functionalized graphene was then applied to fabricate glucose biosensors with IO4(-) oxidized glucose oxidase (GOx) through layer-by-layer (LBL) self-assembly by the covalent bonding between the aldehyde groups of GOx and amino groups of TFGn.	Graphite	40-48	hydroxyacid oxidase 1	Homo sapiens	119-134	
27524025-6	2016	The triethylenetetramine-functionalized graphene was then applied to fabricate glucose biosensors with IO4(-) oxidized glucose oxidase (GOx) through layer-by-layer (LBL) self-assembly by the covalent bonding between the aldehyde groups of GOx and amino groups of TFGn.	Graphite	40-48	hydroxyacid oxidase 1	Homo sapiens	136-139	
27524025-6	2016	The triethylenetetramine-functionalized graphene was then applied to fabricate glucose biosensors with IO4(-) oxidized glucose oxidase (GOx) through layer-by-layer (LBL) self-assembly by the covalent bonding between the aldehyde groups of GOx and amino groups of TFGn.	Graphite	40-48	hydroxyacid oxidase 1	Homo sapiens	239-242	
28809354-1	2013	: A simple procedure was developed for the fabrication of electrochemical glucose biosensors using glucose oxidase (GOx), with graphene or multi-walled carbon nanotubes (MWCNTs).	Graphite	127-135	hydroxyacid oxidase 1	Homo sapiens	99-114	
26551320-0	2015	Electrochemically Functionalized Seamless Three-Dimensional Graphene-Carbon Nanotube Hybrid for Direct Electron Transfer of Glucose Oxidase and Bioelectrocatalysis.	Graphite	60-68	hydroxyacid oxidase 1	Homo sapiens	124-139	
26551320-1	2015	Three-dimensional seamless chemical vapor deposition (CVD) grown graphene-carbon nanotubes (G-CNT) hybrid film has been studied for its potential in achieving direct electron transfer (DET) of glucose oxidase (GOx) and its bioelectrocatalytic activity in glucose detection.	Graphite	65-73	hydroxyacid oxidase 1	Homo sapiens	193-208	
26551320-1	2015	Three-dimensional seamless chemical vapor deposition (CVD) grown graphene-carbon nanotubes (G-CNT) hybrid film has been studied for its potential in achieving direct electron transfer (DET) of glucose oxidase (GOx) and its bioelectrocatalytic activity in glucose detection.	Graphite	65-73	hydroxyacid oxidase 1	Homo sapiens	210-213	
26215343-0	2015	Glucose biosensor based on glucose oxidase immobilized at gold nanoparticles decorated graphene-carbon nanotubes.	Graphite	87-95	hydroxyacid oxidase 1	Homo sapiens	27-42	
25796041-2	2015	In this construction strategy, the nanocomposites of three-dimensional graphene and gold nanoparticles (3D-GR-AuNPs) were used as matrix for high loading of glucose oxidase (GOx), which served as recognition element for bounding Con A. Con A further interacted with DexP-g-C3N4 through a specific carbohydrate-Con A interaction to achieve a sandwiched scheme.	Graphite	71-79	hydroxyacid oxidase 1	Homo sapiens	157-172	
25433682-1	2015	A highly sensitive electrochemiluminescent (ECL) biosensor was designed for the detection of concanavalin A (ConA) based on glucose oxidase (GOx) as a recognition element by carbohydrate-lectin biospecific interaction, and poly(ethylenimine) (PEI) reduced graphene and hollow gold nanoparticles (HAuNPs) as supporting matrix and signal amplifier.	Graphite	256-264	hydroxyacid oxidase 1	Homo sapiens	124-139	
25433682-1	2015	A highly sensitive electrochemiluminescent (ECL) biosensor was designed for the detection of concanavalin A (ConA) based on glucose oxidase (GOx) as a recognition element by carbohydrate-lectin biospecific interaction, and poly(ethylenimine) (PEI) reduced graphene and hollow gold nanoparticles (HAuNPs) as supporting matrix and signal amplifier.	Graphite	256-264	hydroxyacid oxidase 1	Homo sapiens	141-144	
25454754-1	2014	This study is focused on the investigation of electrocatalytic effect of glucose oxidase (GOx) immobilized on the graphite rod (GR) electrode.	Graphite	114-122	hydroxyacid oxidase 1	Homo sapiens	73-88	
25454754-1	2014	This study is focused on the investigation of electrocatalytic effect of glucose oxidase (GOx) immobilized on the graphite rod (GR) electrode.	Graphite	114-122	hydroxyacid oxidase 1	Homo sapiens	90-93	
25248701-0	2014	Immobilization of glucose oxidase on graphene and cobalt phthalocyanine composite and its application for the determination of glucose.	Graphite	37-45	hydroxyacid oxidase 1	Homo sapiens	18-33	
23973906-3	2013	To fabricate the desired biosensor, glucose oxidase (GOx) was immobilized as a model enzyme on the polymer coated graphite electrode with the help of glutaraldehyde (GA).	Graphite	114-122	hydroxyacid oxidase 1	Homo sapiens	36-51	
23973906-3	2013	To fabricate the desired biosensor, glucose oxidase (GOx) was immobilized as a model enzyme on the polymer coated graphite electrode with the help of glutaraldehyde (GA).	Graphite	114-122	hydroxyacid oxidase 1	Homo sapiens	53-56	
32263308-0	2016	Preparation of graphene nano-sheet bonded PDA/MOF microcapsules with immobilized glucose oxidase as a mimetic multi-enzyme system for electrochemical sensing of glucose.	Graphite	15-23	hydroxyacid oxidase 1	Homo sapiens	81-96	
25686953-1	2015	In the present work we report a facile method for fabrication of glucose oxidase immobilized on the partially reduced graphene-gold nanocomposite (PRGO-AuNPs/GOx) as a novel biosensor for determination of glucose concentration.	Graphite	118-126	hydroxyacid oxidase 1	Homo sapiens	158-161	
25435508-0	2015	Development of glucose biosensor based on reconstitution of glucose oxidase onto polymeric redox mediator coated pencil graphite electrodes.	Graphite	120-128	hydroxyacid oxidase 1	Homo sapiens	60-75	
25435508-1	2015	In this study, a novel glucose biosensor was fabricated by reconstitutional immobilization of glucose oxidase (GOx) onto a poly(glycidyl methacrylate-co-vinylferrocene) (poly(GMA-co-VFc)) film coated pencil graphite electrode (PGE).	Graphite	207-215	hydroxyacid oxidase 1	Homo sapiens	94-109	
25435508-1	2015	In this study, a novel glucose biosensor was fabricated by reconstitutional immobilization of glucose oxidase (GOx) onto a poly(glycidyl methacrylate-co-vinylferrocene) (poly(GMA-co-VFc)) film coated pencil graphite electrode (PGE).	Graphite	207-215	hydroxyacid oxidase 1	Homo sapiens	111-114	
23486775-1	2013	The fabrication of glucose oxidase (GOx) enzyme electrodes with controlled alternate enzyme and graphene layers is described.	Graphite	96-104	hydroxyacid oxidase 1	Homo sapiens	19-34	
23486775-1	2013	The fabrication of glucose oxidase (GOx) enzyme electrodes with controlled alternate enzyme and graphene layers is described.	Graphite	96-104	hydroxyacid oxidase 1	Homo sapiens	36-39	
23486775-2	2013	GOx was first modified with pyrene functionalities in order to be self-assembled onto a graphene basal plane via non-covalent pi-pi stacking interaction.	Graphite	88-96	hydroxyacid oxidase 1	Homo sapiens	0-3	
23098855-0	2013	Graphene quantum dots as a new substrate for immobilization and direct electrochemistry of glucose oxidase: application to sensitive glucose determination.	Graphite	0-8	hydroxyacid oxidase 1	Homo sapiens	91-106	
28809354-1	2013	: A simple procedure was developed for the fabrication of electrochemical glucose biosensors using glucose oxidase (GOx), with graphene or multi-walled carbon nanotubes (MWCNTs).	Graphite	127-135	hydroxyacid oxidase 1	Homo sapiens	116-119	
28809354-3	2013	The EDC (1-ethyl-(3-dimethylaminopropyl) carbodiimide)-activated GOx was then bound covalently on the graphene- or MWCNT-modified GCE.	Graphite	102-110	hydroxyacid oxidase 1	Homo sapiens	65-68	
21513282-4	2011	On the basis of the cathodic ECL signal of luminol on the graphene-modified electrode, an ECL sandwich immunosensor for sensitive detection of cancer biomarkers at low potential was developed with a multiple signal amplification strategy from functionalized graphene and gold nanorods multilabeled with glucose oxidase (GOx) and secondary antibody (Ab(2)).	Graphite	58-66	hydroxyacid oxidase 1	Homo sapiens	303-318	
22967516-1	2012	A mediatorless glucose biosensor was developed by the immobilization of glucose oxidase (GOx) to graphene-functionalized glassy carbon electrode (GCE).	Graphite	97-105	hydroxyacid oxidase 1	Homo sapiens	72-87	
22967516-1	2012	A mediatorless glucose biosensor was developed by the immobilization of glucose oxidase (GOx) to graphene-functionalized glassy carbon electrode (GCE).	Graphite	97-105	hydroxyacid oxidase 1	Homo sapiens	89-92	
22967516-3	2012	This was followed by the covalent binding of GOx to graphene-functionalized GCE using 1-ethyl-3-[3-dimethylaminopropyl]carbodiimide hydrochloride (EDC) based crosslinking.	Graphite	52-60	hydroxyacid oxidase 1	Homo sapiens	45-48	
22967516-4	2012	Graphene provided signal enhancement by providing greater surface area for GOx binding, while APTES-functionalization led to a higher GOx immobilization density by providing free amino groups for crosslinking.	Graphite	0-8	hydroxyacid oxidase 1	Homo sapiens	75-78	
22967516-9	2012	The developed bioanalytical procedure for preparation of GOx-bound graphene-functionalized GCEs had high production reproducibility and high storage stability, which is appropriate for the commercial mass production of enzyme-bound electrodes.	Graphite	67-75	hydroxyacid oxidase 1	Homo sapiens	57-60	
21513282-4	2011	On the basis of the cathodic ECL signal of luminol on the graphene-modified electrode, an ECL sandwich immunosensor for sensitive detection of cancer biomarkers at low potential was developed with a multiple signal amplification strategy from functionalized graphene and gold nanorods multilabeled with glucose oxidase (GOx) and secondary antibody (Ab(2)).	Graphite	58-66	hydroxyacid oxidase 1	Homo sapiens	320-323	
16245530-5	2005	The results obtained favorably compare to those of a glucose biosensor based on a graphite epoxy composite (GOx-GEC).	Graphite	82-90	hydroxyacid oxidase 1	Homo sapiens	108-111	
20605713-4	2010	Bioelectrochemical responses of PDs and glucose oxidase (GOX)-modified graphite rod electrodes (GREs) were studied amperometrically and potentiometrically.	Graphite	71-79	hydroxyacid oxidase 1	Homo sapiens	40-55	
20605713-4	2010	Bioelectrochemical responses of PDs and glucose oxidase (GOX)-modified graphite rod electrodes (GREs) were studied amperometrically and potentiometrically.	Graphite	71-79	hydroxyacid oxidase 1	Homo sapiens	57-60	
19594172-2	2009	The compatibility of a graphite electrode modified by these peptide nanofibers with enzymes is demonstrated using a model enzyme glucose oxidase (GOx).	Graphite	23-31	hydroxyacid oxidase 1	Homo sapiens	129-144	
19594172-2	2009	The compatibility of a graphite electrode modified by these peptide nanofibers with enzymes is demonstrated using a model enzyme glucose oxidase (GOx).	Graphite	23-31	hydroxyacid oxidase 1	Homo sapiens	146-149	
18457943-4	2008	The marked electrocatalytic activity towards hydrogen peroxide permits effective amperometric biosensing of glucose in connection with the incorporation of glucose oxidase within the three-dimensional IL/graphite matrix.	Graphite	204-212	hydroxyacid oxidase 1	Homo sapiens	156-171	
17113278-1	2007	Glucose sensing electrodes have been realized by immobilizing glucose oxidase (GOx) on unmodified edge plane of highly oriented pyrolytic graphite (epHOPG) and the native oxide of heavily doped silicon (SiO2/Si).	Graphite	138-146	hydroxyacid oxidase 1	Homo sapiens	62-77	
17113278-1	2007	Glucose sensing electrodes have been realized by immobilizing glucose oxidase (GOx) on unmodified edge plane of highly oriented pyrolytic graphite (epHOPG) and the native oxide of heavily doped silicon (SiO2/Si).	Graphite	138-146	hydroxyacid oxidase 1	Homo sapiens	79-82	
16245530-4	2005	Experimental results show that the CNT epoxy composite biosensor (GOx-CNTEC) offers an excellent sensitivity, reliable calibration profile, and stable electrochemical properties together with significantly lower detection potential (+0.55 V) than GOx-graphite epoxy composites (+0.90 V; difference deltaE = 0.35 V).	Graphite	251-259	hydroxyacid oxidase 1	Homo sapiens	66-69	
18970008-1	2005	The performance of amperometric glucose biosensors based on the dispersion of glucose oxidase (GOx) and copper oxide within a classical carbon (graphite) paste composite is reported in this work.	Graphite	144-152	hydroxyacid oxidase 1	Homo sapiens	78-93	
18970008-1	2005	The performance of amperometric glucose biosensors based on the dispersion of glucose oxidase (GOx) and copper oxide within a classical carbon (graphite) paste composite is reported in this work.	Graphite	144-152	hydroxyacid oxidase 1	Homo sapiens	95-98	
35149425-6	2022	Then, the molecularly imprinted GOx are immobilized on the surface of highly oriented pyrolytic graphite (HOPG) electrode and an electrochemical biosensor (Fe3O4@Au-GOx-HOPG) for glucose sensing is successfully obtained.	Graphite	96-104	hydroxyacid oxidase 1	Homo sapiens	32-35	
34436075-2	2021	Here, we studied the effect of DNA adsorption on electrochemical charge transfer at few-layered, oxygen-functionalized graphene (GOx) electrodes.	Graphite	119-127	hydroxyacid oxidase 1	Homo sapiens	129-132	
34436069-2	2021	We investigated the immobilization of glucose oxidase (GOx) on a new composite nanomaterial poly(3,4-ethylenedioxythiophene): polystyrene sulfonate (PEDOT:PSS)/titanium carbide,(Ti3C2)/graphene quantum dots(GQD) modified screen-printed carbon electrode (SPCE) for glucose sensing.	Graphite	185-193	hydroxyacid oxidase 1	Homo sapiens	38-53	
34436069-2	2021	We investigated the immobilization of glucose oxidase (GOx) on a new composite nanomaterial poly(3,4-ethylenedioxythiophene): polystyrene sulfonate (PEDOT:PSS)/titanium carbide,(Ti3C2)/graphene quantum dots(GQD) modified screen-printed carbon electrode (SPCE) for glucose sensing.	Graphite	185-193	hydroxyacid oxidase 1	Homo sapiens	55-58	
34385012-3	2021	This nanosensor is prepared through the in-situ growth of silver nanoparticles (AgNPs) with the synergetic reduction of tannic acid (TA) and graphene quantum dots (GQDs), which are further decorated with glucose oxidase (GOx).	Graphite	141-149	hydroxyacid oxidase 1	Homo sapiens	204-219	
34385012-3	2021	This nanosensor is prepared through the in-situ growth of silver nanoparticles (AgNPs) with the synergetic reduction of tannic acid (TA) and graphene quantum dots (GQDs), which are further decorated with glucose oxidase (GOx).	Graphite	141-149	hydroxyacid oxidase 1	Homo sapiens	221-224	
35458293-4	2022	It was shown that, from the point of view of both the rate of electron transfer to the electrode, and the rate of interaction with the active center of glucose oxidase (GOx), the most promising is a new nanocomposite based on poly(neutral red) (pNR) and thermally expanded graphite (TEG).	Graphite	273-281	hydroxyacid oxidase 1	Homo sapiens	152-167	
35458293-4	2022	It was shown that, from the point of view of both the rate of electron transfer to the electrode, and the rate of interaction with the active center of glucose oxidase (GOx), the most promising is a new nanocomposite based on poly(neutral red) (pNR) and thermally expanded graphite (TEG).	Graphite	273-281	hydroxyacid oxidase 1	Homo sapiens	169-172	
32573601-0	2020	A 3D porous graphene aerogel@GOx based microfluidic biosensor for electrochemical glucose detection.	Graphite	12-20	hydroxyacid oxidase 1	Homo sapiens	29-32	
32573601-3	2020	In this paper, an enzymatic electrochemical microfluidic biosensor for glucose detection was developed based on a three-dimensional (3D) porous graphene aerogel and glucose oxidase (GOx).	Graphite	144-152	hydroxyacid oxidase 1	Homo sapiens	182-185	
32573601-4	2020	A graphene aerogel was prepared by freeze-drying a graphene hydrogel and has a high electrical conductivity, the 3D porous structure provided a good near-biological condition for GOx and the increased specific surface area allowed more GOx to be immobilized on the graphene aerogel.	Graphite	2-10	hydroxyacid oxidase 1	Homo sapiens	179-182	
32573601-4	2020	A graphene aerogel was prepared by freeze-drying a graphene hydrogel and has a high electrical conductivity, the 3D porous structure provided a good near-biological condition for GOx and the increased specific surface area allowed more GOx to be immobilized on the graphene aerogel.	Graphite	2-10	hydroxyacid oxidase 1	Homo sapiens	236-239