PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34787621-0	2021	Potential interference of graphene nanosheets in immune response via disrupting the recognition of HLA-presented KK10 by TCR: a molecular dynamics simulation study.	Graphite	26-34	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	121-124	
34787621-4	2021	For the illustrated human immunodeficiency virus (HIV) antigen peptide KK10, human leukocyte antigen (HLA), and T cell receptor (TCR) ternary complex, we found that the graphene nanosheet could disrupt the critical protein-protein interactions between TCR and peptide-HLA and impair the antigen recognition by TCR, leaving the antigen presentation unaffected.	Graphite	169-177	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	112-127	
34787621-4	2021	For the illustrated human immunodeficiency virus (HIV) antigen peptide KK10, human leukocyte antigen (HLA), and T cell receptor (TCR) ternary complex, we found that the graphene nanosheet could disrupt the critical protein-protein interactions between TCR and peptide-HLA and impair the antigen recognition by TCR, leaving the antigen presentation unaffected.	Graphite	169-177	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	129-132	
34787621-4	2021	For the illustrated human immunodeficiency virus (HIV) antigen peptide KK10, human leukocyte antigen (HLA), and T cell receptor (TCR) ternary complex, we found that the graphene nanosheet could disrupt the critical protein-protein interactions between TCR and peptide-HLA and impair the antigen recognition by TCR, leaving the antigen presentation unaffected.	Graphite	169-177	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	252-255	
34787621-4	2021	For the illustrated human immunodeficiency virus (HIV) antigen peptide KK10, human leukocyte antigen (HLA), and T cell receptor (TCR) ternary complex, we found that the graphene nanosheet could disrupt the critical protein-protein interactions between TCR and peptide-HLA and impair the antigen recognition by TCR, leaving the antigen presentation unaffected.	Graphite	169-177	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	310-313	
34787621-5	2021	Moreover, the hydrophobic interaction and van der Waals potential energy collectively drive the spontaneous separation of TCR from the peptide-HLA complex by graphene nanosheets.	Graphite	158-166	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	122-125	
28805869-8	2017	For this layered model, the quantitative analysis by classical theories demonstrates the suitable thickness ratio of graphene layer and metal layer to achieve zero TCR to be 0.2, agreeing well with our experimental results.	Graphite	117-125	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	164-167	
28805869-9	2017	This wrinkle-stabilized approach and our theoretical analysis of zero-TCR behavior of the graphene-metal system are conducive to the design of high-performance conducting materials based on graphene and metals.	Graphite	90-98	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	70-73	
28805869-9	2017	This wrinkle-stabilized approach and our theoretical analysis of zero-TCR behavior of the graphene-metal system are conducive to the design of high-performance conducting materials based on graphene and metals.	Graphite	190-198	T cell receptor beta variable 20/OR9-2 (non-functional)	Homo sapiens	70-73