PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
18624322-2	1996	Tyrosinase was immobilized on nylon using glutaraldehyde as a crosslinking agent.	Glutaral	42-56	tyrosinase	Homo sapiens	0-10	
30016268-3	2018	TYR was firstly adsorbed on the surface of Fe3O4-NH2 by electrostatic interaction, and then by covalent crosslinking with glutaraldehyde (GA), TYR was firmly immobilized on the supports.	Glutaral	122-136	tyrosinase	Homo sapiens	0-3	
34562912-1	2021	An amperometric biosensor based on tyrosinase, immobilized onto a carbon black paste electrode using glutaraldehyde and BSA was constructed to detect competitive inhibitors.	Glutaral	101-115	tyrosinase	Homo sapiens	35-45	
35591555-2	2022	To immobilise tyrosinase on the sensor surface, crosslinking with the glutaraldehyde technique was used, thus increasing the enzyme bioactivity on this electrode.	Glutaral	70-84	tyrosinase	Homo sapiens	14-24	
30880350-5	2019	A biorecognition layer was prepared from mushroom (Agaricus bisporus) tyrosinase (EC 1.14.18.1) cross-linked using glutaraldehyde, where resulting aggregates were covered by Nafion , a known ion exchange membrane.	Glutaral	115-129	tyrosinase	Homo sapiens	70-80	
30368304-2	2019	Gold nanoparticles screen-printed electrodes were thoroughly modified with tyrosinase (Tyr-AuNPS-SPCEs), which was immobilised on the surface by crosslinking with glutaraldehyde.	Glutaral	163-177	tyrosinase	Homo sapiens	75-85	
29656242-1	2018	The fabrication, characterization and analytical performance were investigated for a phenol biosensor based on the covalent bonding of tyrosinase (TYR) onto a graphene oxide (GO)-modified glassy carbon electrode (GCE) via glutaraldehyde (GA).	Glutaral	222-236	tyrosinase	Homo sapiens	135-145	
29656242-1	2018	The fabrication, characterization and analytical performance were investigated for a phenol biosensor based on the covalent bonding of tyrosinase (TYR) onto a graphene oxide (GO)-modified glassy carbon electrode (GCE) via glutaraldehyde (GA).	Glutaral	222-236	tyrosinase	Homo sapiens	147-150	
30016268-3	2018	TYR was firstly adsorbed on the surface of Fe3O4-NH2 by electrostatic interaction, and then by covalent crosslinking with glutaraldehyde (GA), TYR was firmly immobilized on the supports.	Glutaral	138-140	tyrosinase	Homo sapiens	0-3	
30016268-3	2018	TYR was firstly adsorbed on the surface of Fe3O4-NH2 by electrostatic interaction, and then by covalent crosslinking with glutaraldehyde (GA), TYR was firmly immobilized on the supports.	Glutaral	138-140	tyrosinase	Homo sapiens	143-146	
32260882-4	2013	This graphene derivative was employed as a coating material for glassy carbon electrodes and the nanostructured electrode was tested for the preparation of electrochemical biosensors by immobilizing the enzyme tyrosinase through cross-linking with glutaraldehyde.	Glutaral	248-262	tyrosinase	Homo sapiens	210-220	
27862041-3	2017	The IMER of tyrosinase was constructed at the outlet of the capillary by using glutaraldehyde as cross-linker.	Glutaral	79-93	tyrosinase	Homo sapiens	12-22	
29869928-3	2018	A simple solution based approach was used to prepare AgNPs on biomembrane followed by glutaraldehyde activation to immobilize Tyr on the nanoparticles decorated ESM.	Glutaral	86-100	tyrosinase	Homo sapiens	126-129	
15219246-1	2004	Sensitive amperometric biosensors for phenols compounds, based on tyrosinase (polyphenoloxidase, PPO) immobilized on a Pt electrode in an electropolymerized poly-amphiphilic pyrrole matrix or cross-linked with glutaraldehyde, were constructed and compared.	Glutaral	210-224	tyrosinase	Homo sapiens	66-76	
22809524-4	2013	This is achieved through the integration of BiNPs/Tyr onto the working electrode of a screen printed electrode (SPE) by using glutaraldehyde as a cross-linking agent.	Glutaral	126-140	tyrosinase	Homo sapiens	50-53	
22155214-1	2012	Tyrosinase was immobilized on glutaraldehyde crosslinked chitosan-clay composite beads and used for phenol removal.	Glutaral	30-44	tyrosinase	Homo sapiens	0-10	
22066229-1	2011	Tyrosinase (TYR) was covalently immobilized onto amino-functionalized carbon felt surface via glutaraldehyde-coupling under ultrasonic treatment for 10 min.	Glutaral	94-108	tyrosinase	Homo sapiens	0-10	
22066229-1	2011	Tyrosinase (TYR) was covalently immobilized onto amino-functionalized carbon felt surface via glutaraldehyde-coupling under ultrasonic treatment for 10 min.	Glutaral	94-108	tyrosinase	Homo sapiens	12-15	
21147347-1	2011	The immobilization of tyrosinase onto glutaraldehyde activated streptavidine magnetic particles and subsequent retention onto a magnetized carbon paste electrode for the amperometric assay of tyrosinase inhibitors is described.	Glutaral	38-52	tyrosinase	Homo sapiens	22-32	
21147347-1	2011	The immobilization of tyrosinase onto glutaraldehyde activated streptavidine magnetic particles and subsequent retention onto a magnetized carbon paste electrode for the amperometric assay of tyrosinase inhibitors is described.	Glutaral	38-52	tyrosinase	Homo sapiens	192-202	
19840905-4	2010	In the construction of the biosensor tyrosinase enzyme was immobilized on a Clark-type dissolved oxygen probe which was covered with a oxygen sensitive teflon membrane, by using a chemical covalent immobilization method based on gelatine and bifunctional reagent, glutaraldehyde.	Glutaral	264-278	tyrosinase	Homo sapiens	37-47	
19203623-2	2009	To construct the biosensor tyrosinase was immobilized by using gelatine and cross-linking agent glutaraldehyde on a Clark type dissolved oxygen (DO) probe covered with a teflon membrane which is sensitive for oxygen.	Glutaral	96-110	tyrosinase	Homo sapiens	27-37	
18358868-0	2008	Glutaraldehyde activated eggshell membrane for immobilization of tyrosinase from Amorphophallus companulatus: application in construction of electrochemical biosensor for dopamine.	Glutaral	0-14	tyrosinase	Homo sapiens	65-75	
18358868-1	2008	Tyrosinase from a plant source Amorphophallus companulatus was immobilized on eggshell membrane using glutaraldehyde.	Glutaral	102-116	tyrosinase	Homo sapiens	0-10	
18358868-2	2008	Among the three different approaches used for immobilization, activation of eggshell membrane by glutaraldehyde followed by enzyme adsorption on activated support could stabilize the enzyme tyrosinase and was found to be effective.	Glutaral	97-111	tyrosinase	Homo sapiens	190-200	
19071278-1	2007	A poly(vinyl alcohol) film cross-linked with glutaraldehyde (PVA-GA) was introduced to the surface of a tyrosinase-based carbon paste electrode.	Glutaral	45-59	tyrosinase	Homo sapiens	104-114	
11786346-2	2002	The biologically active membrane was formed by cross-linking of tyrosinase with bovine serum albumin (BSA) in saturated glutaraldehyde (GA) vapours on the sensitive transducer surface.	Glutaral	120-134	tyrosinase	Homo sapiens	64-74	
18969441-2	2004	Tyrosinase was immobilised on the biosensor sensitive part by allowing it to mix with bovine serum albumin (BSA) and then cross-linking in saturated glutaraldehyde (GA) vapour for 30min.	Glutaral	149-163	tyrosinase	Homo sapiens	0-10	
18969441-2	2004	Tyrosinase was immobilised on the biosensor sensitive part by allowing it to mix with bovine serum albumin (BSA) and then cross-linking in saturated glutaraldehyde (GA) vapour for 30min.	Glutaral	165-167	tyrosinase	Homo sapiens	0-10	
11786346-2	2002	The biologically active membrane was formed by cross-linking of tyrosinase with bovine serum albumin (BSA) in saturated glutaraldehyde (GA) vapours on the sensitive transducer surface.	Glutaral	136-138	tyrosinase	Homo sapiens	64-74