PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
31172045-1	2019	Silk-elastin block copolymers have such physical and biological properties that make them attractive biomaterials for applications ranging from tissue regeneration to drug delivery.	copolymers	19-29	elastin	Homo sapiens	5-12	
31172045-2	2019	Silk-elastin block copolymers that only assemble into fibrils at high concentrations can be used for a template-induced fibril assembly.	copolymers	19-29	elastin	Homo sapiens	5-12	
25611563-0	2015	Aggregation of poly(acrylic acid)-containing elastin-mimetic copolymers.	copolymers	61-71	elastin	Homo sapiens	45-52	
29195275-0	2018	Functional Modification of Silica through Enhanced Adsorption of Elastin-Like Polypeptide Block Copolymers.	copolymers	96-106	elastin	Homo sapiens	65-72	
29195275-2	2018	Here, we use computational and experimental approaches to investigate the adsorption behavior of thermally responsive polypeptide block copolymers (elastin-like polypeptides, ELPs) onto silica surfaces, and to explore the effects of surface affinity and micellization on the adsorption kinetics and the resultant polypeptide layers.	copolymers	136-146	elastin	Homo sapiens	148-155	
27065492-0	2015	Elastin-like Polypeptide Diblock Copolymers Self-Assemble into Weak Micelles.	copolymers	33-43	elastin	Homo sapiens	0-7	
22533503-0	2012	Tuning the properties of elastin mimetic hybrid copolymers via a modular polymerization method.	copolymers	48-58	elastin	Homo sapiens	25-32	
23214439-0	2013	Fibril formation by pH and temperature responsive silk-elastin block copolymers.	copolymers	69-79	elastin	Homo sapiens	55-62	
21469235-0	2011	Self-assembly of monodisperse oligonucleotide-elastin block copolymers into stars and compound micelles.	copolymers	60-70	elastin	Homo sapiens	46-53	
20441783-2	2010	In particular, recombinant elastin block copolymers provide significant opportunities to modulate material microstructure and can be processed in various forms, including particles, films, gels, and fiber networks.	copolymers	41-51	elastin	Homo sapiens	27-34	
12741775-1	2003	Differentially charged analogues of block copolymers containing repeating sequences from silk (GAGAGS) and elastin (GVGVP) were synthesized using genetic engineering techniques by replacing a valine residue with glutamic acid.	copolymers	42-52	elastin	Homo sapiens	107-114	
18163573-0	2008	In situ cross-linking of elastin-like polypeptide block copolymers for tissue repair.	copolymers	56-66	elastin	Homo sapiens	25-32	
19470397-1	2009	Silk-elastinlike protein polymers (SELP"s) are block copolymers of silk-like and elastin-like tandem repeats.	copolymers	53-63	elastin	Homo sapiens	5-12	
12384307-0	2002	Self-assembly of block copolymers derived from elastin-mimetic polypeptide sequences.	copolymers	23-33	elastin	Homo sapiens	47-54	
1366613-7	1990	Additionally, we have produced alternating block copolymers of various amounts of silk-like and elastin-like blocks, ranging from a ratio of 1:4 to 2:1, respectively.	copolymers	49-59	elastin	Homo sapiens	96-103	
9741918-1	1998	Sequential block copolymers consisting of tandem repetition of amino acids have been constructed and genetically produced based on the natural repeating structures of silk and elastin protein.	copolymers	17-27	elastin	Homo sapiens	176-183	
33942499-0	2021	Self-Assembly or Coassembly of Multiresponsive Histidine-Containing Elastin-Like Polypeptide Block Copolymers.	copolymers	99-109	elastin	Homo sapiens	68-75