PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
30239896-1	2018	RNase H1-dependent, phosphorothioate-modified antisense oligonucleotides (PS-ASOs) can enter cells through endocytic pathways and need to be released from the membrane-enclosed organelles, a limiting step for antisense activity.	Parathion	20-36	ribonuclease H1	Homo sapiens	0-8	
30239896-1	2018	RNase H1-dependent, phosphorothioate-modified antisense oligonucleotides (PS-ASOs) can enter cells through endocytic pathways and need to be released from the membrane-enclosed organelles, a limiting step for antisense activity.	Oligonucleotides	56-72	ribonuclease H1	Homo sapiens	0-8	
30239896-1	2018	RNase H1-dependent, phosphorothioate-modified antisense oligonucleotides (PS-ASOs) can enter cells through endocytic pathways and need to be released from the membrane-enclosed organelles, a limiting step for antisense activity.	ps-asos	74-81	ribonuclease H1	Homo sapiens	0-8	
30239896-8	2018	STX5 can re-locate to LEs upon PS-ASO incubation, can bind PS-ASOs, and the binding appears to be required for this pathway.	Phosphorus	31-33	syntaxin 5	Homo sapiens	0-4	
30239896-8	2018	STX5 can re-locate to LEs upon PS-ASO incubation, can bind PS-ASOs, and the binding appears to be required for this pathway.	ps-asos	59-66	syntaxin 5	Homo sapiens	0-4	
30239896-9	2018	Our study reveals a novel release pathway in which PS-ASO incubation causes LE re-localization of STX5, which mediates the recruitment of COPII vesicles to LEs to facilitate endosomal PS-ASO release, and identifies another key PS-ASO binding protein.	ps-aso	51-57	syntaxin 5	Homo sapiens	98-102	
30239896-9	2018	Our study reveals a novel release pathway in which PS-ASO incubation causes LE re-localization of STX5, which mediates the recruitment of COPII vesicles to LEs to facilitate endosomal PS-ASO release, and identifies another key PS-ASO binding protein.	ps-aso	184-190	syntaxin 5	Homo sapiens	98-102	
30239896-9	2018	Our study reveals a novel release pathway in which PS-ASO incubation causes LE re-localization of STX5, which mediates the recruitment of COPII vesicles to LEs to facilitate endosomal PS-ASO release, and identifies another key PS-ASO binding protein.	Phosphorus	51-54	syntaxin 5	Homo sapiens	98-102