PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33766446-0	2021	Polyphenol treatments increase elastin and collagen deposition by human dermal fibroblasts; Implications to improve skin health.	Polyphenols	0-10	elastin	Homo sapiens	31-38	
33766446-6	2021	OBJECTIVE: We hypothesize that polyphenols may help coacervate cell secreted TE due to its elastin binding property and increase insoluble elastin in human dermal fibroblasts (HDFs).	Polyphenols	31-42	elastin	Homo sapiens	91-98	
33766446-6	2021	OBJECTIVE: We hypothesize that polyphenols may help coacervate cell secreted TE due to its elastin binding property and increase insoluble elastin in human dermal fibroblasts (HDFs).	Polyphenols	31-42	elastin	Homo sapiens	139-146	
33766446-7	2021	Increase in TE production by short term UV exposure may further improve elastin deposition by polyphenols.	Polyphenols	94-105	elastin	Homo sapiens	72-79	
33766446-9	2021	RESULTS: Polyphenols increased insoluble elastin deposition several folds as compared to control untreated cells.	Polyphenols	9-20	elastin	Homo sapiens	41-48	
33766446-12	2021	When polyphenols were introduced with UVA exposure, insoluble elastin deposition was further enhanced in HDFs (30-45-fold increase).	Polyphenols	5-16	elastin	Homo sapiens	62-69	
33766446-15	2021	CONCLUSIONS: Polyphenols in combination with short exposure to UVA light increase extracellular matrix deposition of elastin and collagen and may improve skin properties.	Polyphenols	13-24	elastin	Homo sapiens	117-124	
19254115-0	2009	Polyphenol-stabilized tubular elastin scaffolds for tissue engineered vascular grafts.	Polyphenols	0-10	elastin	Homo sapiens	30-37	
23103157-0	2013	Mitigation of diabetes-related complications in implanted collagen and elastin scaffolds using matrix-binding polyphenol.	Polyphenols	110-120	elastin	Homo sapiens	71-78	
23103157-5	2013	Pre-implantation treatment of collagen and elastin scaffolds with penta-galloyl glucose (PGG), an antioxidant and matrix-binding polyphenol, chemically stabilized the scaffolds, reduced their enzymatic degradation, and protected them from diabetes-related complications by reduction of scaffold-bound AGE levels.	Polyphenols	129-139	elastin	Homo sapiens	43-50	
34979103-4	2022	This study establishes the ability of the polyphenol compound epigallocatechin gallate, a principal component of green tea, to facilitate the extracellular formation of elastin fibers in vascular smooth muscle cells derived from human induced pluripotent stem cells.	Polyphenols	42-52	elastin	Homo sapiens	169-176	
33682692-4	2021	OBJECTIVE: The goal of this research is to assess the effect of the vitamin A derivative all-trans retinoic acid (RA) and polyphenol pentagalloyl glucose (PGG) on the expression of elastin in human aortic smooth muscle cells (hASMC).	Polyphenols	122-132	elastin	Homo sapiens	181-188	
30058211-0	2018	Elastin Stabilization Through Polyphenol and Ferric Chloride Combined Treatment for the Enhancement of Bioprosthetic Heart Valve Anticalcification.	Polyphenols	30-40	elastin	Homo sapiens	0-7	
16601672-4	2006	Results of a pulse and chase experiment showed that pretreatment with both polyphenols enhanced biostability of tropoelastin and newly deposited elastin.	Polyphenols	75-86	elastin	Homo sapiens	112-124	
16601672-4	2006	Results of a pulse and chase experiment showed that pretreatment with both polyphenols enhanced biostability of tropoelastin and newly deposited elastin.	Polyphenols	75-86	elastin	Homo sapiens	117-124	
16601672-5	2006	Results of in vitro assays indicated that both polyphenols bound to purified elastin and significantly decreased its proteolytic degradation by elastolytic enzymes belonging to the serine proteinase, cysteine proteinase, and metallo-proteinase families.	Polyphenols	47-58	elastin	Homo sapiens	77-84