PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
21826154-7	2011	In the high-Se diet group, the activity of hepatic GPx was comparable to that of positive control group, and significantly higher than those of low-Se or medium-Se diet groups.	Selenium	12-14	peroxiredoxin 6 pseudogene 2	Mus musculus	51-54	
23219898-6	2013	An increase in dietary selenium led to increased levels of selenium in the lung as well as GPx protein levels, but dietary Se did not affect lung SOD protein levels.	Selenium	23-31	peroxiredoxin 6 pseudogene 2	Mus musculus	91-94	
15795427-2	2005	However, decreased Gpx activity in Se-depleted wild-type animals does not produce pathology in the gastrointestinal tract.	Selenium	35-37	peroxiredoxin 6 pseudogene 2	Mus musculus	19-22	
20828612-3	2010	An unexpected increase in total GPx activity was found throughout the intestine in selenium-fed GPx2 knockout (KO) animals.	Selenium	83-91	peroxiredoxin 6 pseudogene 2	Mus musculus	32-35	
19203714-6	2009	Blood GPx activity increased in all of the selenium supplemented groups compared with control group (P<0.01).	Selenium	43-51	peroxiredoxin 6 pseudogene 2	Mus musculus	6-9	
19386241-6	2009	After 30 days of a Se-deficient diet, mice, either with or without the MMC treatment, showed a lower selenium concentration in blood and liver as well as lower enzyme activity of the antioxidants, GPx and SOD.	Selenium	19-21	peroxiredoxin 6 pseudogene 2	Mus musculus	197-200	
19386241-8	2009	This enhancement was accompanied with a concomitant elevation of selenium levels, which favored the synthesis of the seleno-enzyme GPx and protected the cells from the MMC-induced oxidative stress.	Selenium	65-73	peroxiredoxin 6 pseudogene 2	Mus musculus	131-134	
10542376-3	1999	In the present report, following dietary selenium deprivation which is known to reduce antioxidant defenses and favor oxidative stress in relation with depressed Se-dependent GPX activities, we show that the epididymis is still efficiently protected against increasing peroxidative conditions.	Selenium	41-49	peroxiredoxin 6 pseudogene 2	Mus musculus	175-178	
12006087-5	2002	The cellular GPx activity, a measure of Se status, was 17-fold lower in Se-deficient RAW 264.7 cells and the total cellular oxidative tone, as assessed by flow cytometry with 2",7"-dichlorodihydrofluorescein diacetate, was higher in the Se-deficient cells than the Se-supplemented cells.	Selenium	40-42	peroxiredoxin 6 pseudogene 2	Mus musculus	13-16	
12006087-5	2002	The cellular GPx activity, a measure of Se status, was 17-fold lower in Se-deficient RAW 264.7 cells and the total cellular oxidative tone, as assessed by flow cytometry with 2",7"-dichlorodihydrofluorescein diacetate, was higher in the Se-deficient cells than the Se-supplemented cells.	Selenium	72-74	peroxiredoxin 6 pseudogene 2	Mus musculus	13-16	
12006087-5	2002	The cellular GPx activity, a measure of Se status, was 17-fold lower in Se-deficient RAW 264.7 cells and the total cellular oxidative tone, as assessed by flow cytometry with 2",7"-dichlorodihydrofluorescein diacetate, was higher in the Se-deficient cells than the Se-supplemented cells.	Selenium	72-74	peroxiredoxin 6 pseudogene 2	Mus musculus	13-16	
10542376-3	1999	In the present report, following dietary selenium deprivation which is known to reduce antioxidant defenses and favor oxidative stress in relation with depressed Se-dependent GPX activities, we show that the epididymis is still efficiently protected against increasing peroxidative conditions.	Selenium	162-164	peroxiredoxin 6 pseudogene 2	Mus musculus	175-178	
10542376-4	1999	In this model, the caput epididymides of selenium-deficient animals showed a limited production of lipid peroxides, a total GPX activity which was not dramatically affected by the shortage in selenium availability and an increase in GPX5 mRNA and protein levels.	Selenium	41-49	peroxiredoxin 6 pseudogene 2	Mus musculus	124-127	
9315306-4	1997	The total GPX activity consists of at least 70% of selenium-dependent GPX activity in this compartment.	Selenium	51-59	peroxiredoxin 6 pseudogene 2	Mus musculus	10-13	
9315306-4	1997	The total GPX activity consists of at least 70% of selenium-dependent GPX activity in this compartment.	Selenium	51-59	peroxiredoxin 6 pseudogene 2	Mus musculus	70-73