PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
9011569-3	1997	The results of reporter gene analyses revealed that the insulin gene promoter is more sensitive to glycation than the control beta-actin gene promoter; approximately 50 and 80% of the insulin gene promoter activity was lost when the cells were kept for 3 d in the presence of 40 and 60 mM D-ribose, respectively.	Ribose	289-297	insulin	Homo sapiens	56-63	
3529502-5	1986	Among monosaccharides, 2-deoxy-D-ribose, D-galactosamine, L-fucose, N-acetylneuraminic acid and D-ribose decreased insulin release and had no effect on insulin release by D-glucose.	Ribose	31-39	insulin	Homo sapiens	115-122	
1901925-0	1991	Serum levels of glucose, insulin, and C-peptide during long-term D-ribose administration in man.	Ribose	65-73	insulin	Homo sapiens	38-47	
30715843-6	2019	In this study, four physiologically relevant monosaccharides, methylglyoxal, glucose, fructose, and ribose were used to glycate human insulin and two C-terminus truncated insulin analogues.	Ribose	100-106	insulin	Homo sapiens	134-141	
30715843-6	2019	In this study, four physiologically relevant monosaccharides, methylglyoxal, glucose, fructose, and ribose were used to glycate human insulin and two C-terminus truncated insulin analogues.	Ribose	100-106	insulin	Homo sapiens	171-178	
26519138-0	2016	D-ribose-glycation of insulin prevents amyloid aggregation and produces cytotoxic adducts.	Ribose	0-8	insulin	Homo sapiens	22-29	
12218186-6	2002	These results demonstrate that glucose and ribose increase islet peroxide accumulation and that the adverse consequences of ribose-induced oxidative stress on insulin mRNA, content, and secretion can be augmented by a glutathione synthesis inhibitor and prevented by increasing islet GPx activity.	Ribose	124-130	insulin	Homo sapiens	159-166	
26350612-4	2015	METHODS: oxPTM of insulin was generated using ribose and various reactive oxygen species.	Ribose	46-52	insulin	Homo sapiens	18-25