PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
11254338-0	2001	Thermally Induced Transient Activity Changes of Plasmin Adsorbed onto Bare and Fibrinogen-Modified Graphite and Glassy Carbon Surfaces.	Graphite	99-107	fibrinogen beta chain	Homo sapiens	79-89	
26966807-0	2016	Molecular Dynamics of Fibrinogen Adsorption onto Graphene, but Not onto Poly(ethylene glycol) Surface, Increases Exposure of Recognition Sites That Trigger Immune Response.	Graphite	49-57	fibrinogen beta chain	Homo sapiens	22-32	
26966807-5	2016	Here we present results of explicit-solvent, all-atom MD simulations of the adsorption of the fibrinogen D-domain onto a graphene surface and a poly(ethylene glycol) (PEG) surface.	Graphite	121-129	fibrinogen beta chain	Homo sapiens	94-104	
26569042-0	2015	Molecular Dynamics Simulations of the Initial Adsorption Stages of Fibrinogen on Mica and Graphite Surfaces.	Graphite	90-98	fibrinogen beta chain	Homo sapiens	67-77	
26569042-3	2015	Here we present the first fully atomistic simulations of the initial stages of the adsorption process of fibrinogen on mica and graphite surfaces.	Graphite	128-136	fibrinogen beta chain	Homo sapiens	105-115	
16029886-0	2006	Electrochemical processing of fibrinogen modified-graphite surfaces: effect on plasmin generation from adsorbed plasminogen.	Graphite	50-58	fibrinogen beta chain	Homo sapiens	30-40	
16029886-1	2006	With the aim to improve the fibrinolytic properties of carbons by different biological and electrochemical treatments, we modified graphite surfaces by fibrinogen adsorption and subsequent application of various constant potentials before submitting them to plasminogen adsorption.	Graphite	131-139	fibrinogen beta chain	Homo sapiens	152-162	
15379516-1	2004	Tapping-mode atomic force microscopy was used to study the time-dependent changes in the structure of fibrinogen under aqueous conditions following adsorption on two model surfaces: hydrophobic graphite and hydrophilic mica.	Graphite	194-202	fibrinogen beta chain	Homo sapiens	102-112	
15379516-6	2004	Spreading kinetics of fibrinogen on the two surfaces was determined by measuring the heights of the D and E domains over a time period of approximately 2 h. On graphite, the heights of both the D and E domains decreased with time to a lower plateau value of 1.0 nm.	Graphite	160-168	fibrinogen beta chain	Homo sapiens	22-32	
15379516-9	2004	A spreading rate constant of approximately 4.7 x 10(-4) s(-1) was observed for the whole fibrinogen molecule adsorbed on graphite, corresponding to a free energy of unfolding of approximately 37 kT.	Graphite	121-129	fibrinogen beta chain	Homo sapiens	89-99	
11254338-3	2001	The amount of fibrinogen adsorbed at graphite was determined by ELISA.	Graphite	37-45	fibrinogen beta chain	Homo sapiens	14-24	
29698786-4	2018	The ultrastructure of individual fibrinogen molecules was studied after heating or extended contact with the highly oriented pyrolytic graphite surface (HOPG) modified with oligoglycine-hydrocarbon graphite modifier (GM).	Graphite	135-143	fibrinogen beta chain	Homo sapiens	33-43	
31282164-0	2019	In Situ Single-Molecule AFM Investigation of Surface-Induced Fibrinogen Unfolding on Graphite.	Graphite	85-93	fibrinogen beta chain	Homo sapiens	61-71	
31282164-4	2019	In this work, unfolding of fibrinogen molecules adsorbed on a model surface (highly oriented pyrolytic graphite modified with an oligoglycine-hydrocarbon graphite modifier) is directly visualized using time-lapse atomic force microscopy.	Graphite	103-111	fibrinogen beta chain	Homo sapiens	27-37	
31282164-4	2019	In this work, unfolding of fibrinogen molecules adsorbed on a model surface (highly oriented pyrolytic graphite modified with an oligoglycine-hydrocarbon graphite modifier) is directly visualized using time-lapse atomic force microscopy.	Graphite	154-162	fibrinogen beta chain	Homo sapiens	27-37	
31282164-8	2019	The obtained results provide a new, direct insight into the unfolding of individual fibrinogen molecules on a surface and give new opportunities for the development of graphite-based biosensors and biomaterials.	Graphite	168-176	fibrinogen beta chain	Homo sapiens	84-94	
29698786-4	2018	The ultrastructure of individual fibrinogen molecules was studied after heating or extended contact with the highly oriented pyrolytic graphite surface (HOPG) modified with oligoglycine-hydrocarbon graphite modifier (GM).	Graphite	198-206	fibrinogen beta chain	Homo sapiens	33-43	
27448541-0	2016	Antibody functionalized graphene biosensor for label-free electrochemical immunosensing of fibrinogen, an indicator of trauma induced coagulopathy.	Graphite	24-32	fibrinogen beta chain	Homo sapiens	91-101	
27448541-1	2016	An antibody, specific to fibrinogen, has been covalently attached to graphene and deposited onto screen printed electrodes using a chitosan hydrogel binder to prepare an inexpensive electrochemical fibrinogen biosensor.	Graphite	69-77	fibrinogen beta chain	Homo sapiens	25-35