PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25861990-7	2015	Likewise, the mitochondrial membrane potential (Deltapsim) and the cellular production of reactive oxygen species were higher in embryonic fibroblasts from Mpv17(-/-) mice.	Reactive Oxygen Species	90-113	MpV17 mitochondrial inner membrane protein	Mus musculus	156-161	
10673153-4	1999	Mpv17 is a peroxisomal protein involved in the metabolism of reactive oxygen species, yet its molecular function is unknown.	Reactive Oxygen Species	61-84	MpV17 mitochondrial inner membrane protein	Mus musculus	0-5	
24598802-8	2014	In vitro, podocytes with loss of Mpv17 function were characterized by increased susceptibility to apoptosis and ROS injury including decreased mitochondrial function, loss of mtDNA content, and change in mitochondrial configuration.	Reactive Oxygen Species	112-115	MpV17 mitochondrial inner membrane protein	Mus musculus	33-38	
22322422-1	2012	The Mpv17 gene encodes a mitochondrial inner-membrane protein that has been implicated in the metabolism of reactive oxygen species.	Reactive Oxygen Species	108-131	MpV17 mitochondrial inner membrane protein	Mus musculus	4-9	
10233845-0	1999	Glomerular overproduction of oxygen radicals in Mpv17 gene-inactivated mice causes podocyte foot process flattening and proteinuria: A model of steroid-resistant nephrosis sensitive to radical scavenger therapy.	Reactive Oxygen Species	29-44	MpV17 mitochondrial inner membrane protein	Mus musculus	48-53	
10233845-4	1999	The development of glomerular disease in Mpv17-/- mice was inhibited by scavengers of oxygen radicals (dithiomethylurea) and lipid peroxidation (probucol), but not by steroid treatment.	Reactive Oxygen Species	86-101	MpV17 mitochondrial inner membrane protein	Mus musculus	41-46	
7564095-5	1995	We here show that this gene, which has a role in the production of reactive oxygen species, can rescue the phenotype of Mpv17 deficient mice when introduced by transgenesis.	Reactive Oxygen Species	67-90	MpV17 mitochondrial inner membrane protein	Mus musculus	120-125	
7957077-0	1994	The glomerulosclerosis gene Mpv17 encodes a peroxisomal protein producing reactive oxygen species.	Reactive Oxygen Species	74-97	MpV17 mitochondrial inner membrane protein	Mus musculus	28-33	
7957077-4	1994	Loss of the Mpv17 protein does not impair peroxisome biogenesis but instead leads to a reduced ability to produce reactive oxygen species (ROS).	Reactive Oxygen Species	114-137	MpV17 mitochondrial inner membrane protein	Mus musculus	12-17	
7957077-4	1994	Loss of the Mpv17 protein does not impair peroxisome biogenesis but instead leads to a reduced ability to produce reactive oxygen species (ROS).	Reactive Oxygen Species	139-142	MpV17 mitochondrial inner membrane protein	Mus musculus	12-17	
7957077-5	1994	In turn, overproduction of the Mpv17 gene in transfected cells results in dramatically enhanced levels of intracellular ROS indicating a direct involvement of Mpv17 in ROS production.	Reactive Oxygen Species	120-123	MpV17 mitochondrial inner membrane protein	Mus musculus	31-36	
7957077-5	1994	In turn, overproduction of the Mpv17 gene in transfected cells results in dramatically enhanced levels of intracellular ROS indicating a direct involvement of Mpv17 in ROS production.	Reactive Oxygen Species	168-171	MpV17 mitochondrial inner membrane protein	Mus musculus	31-36	
7957077-5	1994	In turn, overproduction of the Mpv17 gene in transfected cells results in dramatically enhanced levels of intracellular ROS indicating a direct involvement of Mpv17 in ROS production.	Reactive Oxygen Species	168-171	MpV17 mitochondrial inner membrane protein	Mus musculus	159-164	
7957077-6	1994	These data reveal a role for the Mpv17 protein in peroxisomal reactive oxygen metabolism and establish a novel link between peroxisomal ROS production and glomerulosclerosis.	Reactive Oxygen Species	136-139	MpV17 mitochondrial inner membrane protein	Mus musculus	33-38