PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33331220-0	2020	Two polyphenols with diverse mechanisms towards amyloidosis: differential modulation of the fibrillation pathway of human lysozyme by curcumin and EGCG.	Polyphenols	4-15	lysozyme	Homo sapiens	122-130	
32432582-0	2020	Coupling PEG-LZM polymer networks with polyphenols yields suturable biohydrogels for tissue patching.	Polyphenols	39-50	lysozyme	Homo sapiens	13-16	
32432582-3	2020	Natural polyphenols can match the potential toughening sites in our previously reported PEG-lysozyme (LZM) hydrogel because polyphenols have unique structural units including a hydroxyl group and an aromatic ring that can interact with PEG via hydrogen bonding and form hydrophobic interactions with LZM.	Polyphenols	8-19	lysozyme	Homo sapiens	88-100	
32432582-3	2020	Natural polyphenols can match the potential toughening sites in our previously reported PEG-lysozyme (LZM) hydrogel because polyphenols have unique structural units including a hydroxyl group and an aromatic ring that can interact with PEG via hydrogen bonding and form hydrophobic interactions with LZM.	Polyphenols	8-19	lysozyme	Homo sapiens	102-105	
32432582-3	2020	Natural polyphenols can match the potential toughening sites in our previously reported PEG-lysozyme (LZM) hydrogel because polyphenols have unique structural units including a hydroxyl group and an aromatic ring that can interact with PEG via hydrogen bonding and form hydrophobic interactions with LZM.	Polyphenols	8-19	lysozyme	Homo sapiens	300-303	
32432582-3	2020	Natural polyphenols can match the potential toughening sites in our previously reported PEG-lysozyme (LZM) hydrogel because polyphenols have unique structural units including a hydroxyl group and an aromatic ring that can interact with PEG via hydrogen bonding and form hydrophobic interactions with LZM.	Polyphenols	124-135	lysozyme	Homo sapiens	88-100	
32432582-3	2020	Natural polyphenols can match the potential toughening sites in our previously reported PEG-lysozyme (LZM) hydrogel because polyphenols have unique structural units including a hydroxyl group and an aromatic ring that can interact with PEG via hydrogen bonding and form hydrophobic interactions with LZM.	Polyphenols	124-135	lysozyme	Homo sapiens	102-105	
32432582-3	2020	Natural polyphenols can match the potential toughening sites in our previously reported PEG-lysozyme (LZM) hydrogel because polyphenols have unique structural units including a hydroxyl group and an aromatic ring that can interact with PEG via hydrogen bonding and form hydrophobic interactions with LZM.	Polyphenols	124-135	lysozyme	Homo sapiens	300-303	
32432582-4	2020	By utilizing polyphenols as noncovalent crosslinkers, the resultant PEG-LZM-polyphenol hydrogel presents super toughness and high elasticity in comparison to pristine PEG-LZM with no obvious changes in the initial shape, and it can even withstand the high pressure from sutures.	Polyphenols	13-24	lysozyme	Homo sapiens	72-75	
32432582-4	2020	By utilizing polyphenols as noncovalent crosslinkers, the resultant PEG-LZM-polyphenol hydrogel presents super toughness and high elasticity in comparison to pristine PEG-LZM with no obvious changes in the initial shape, and it can even withstand the high pressure from sutures.	Polyphenols	13-24	lysozyme	Homo sapiens	171-174	
32432582-4	2020	By utilizing polyphenols as noncovalent crosslinkers, the resultant PEG-LZM-polyphenol hydrogel presents super toughness and high elasticity in comparison to pristine PEG-LZM with no obvious changes in the initial shape, and it can even withstand the high pressure from sutures.	Polyphenols	13-23	lysozyme	Homo sapiens	72-75	
32432582-6	2020	Interestingly, the PEG-LZM-polyphenol hydrogel has a higher water content than other polyphenol-toughened hydrogels, which may better meet the clinical needs for hydrogel materials.	Polyphenols	27-37	lysozyme	Homo sapiens	23-26	
32432582-6	2020	Interestingly, the PEG-LZM-polyphenol hydrogel has a higher water content than other polyphenol-toughened hydrogels, which may better meet the clinical needs for hydrogel materials.	Polyphenols	85-95	lysozyme	Homo sapiens	23-26	
31696185-11	2019	In conclusion, the comparative study on the interaction of oxyresveratrol and piceatannol with trypsin and lysozyme showed that the positions of hydroxyl groups of the polyphenols had an important influence on their interaction with enzymes and their antioxidant activity and stability as well as the enzyme activities.	Polyphenols	168-179	lysozyme	Homo sapiens	107-115