PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
1961720-5	1991	This enhancer operates in HepG2 and Hep3B cells, but not in Chinese hamster ovary cells or mouse erythroleukemia cells, and responds to cobalt but not to cyanide or 2-deoxyglucose, thus reflecting the physiological control of erythropoietin production accurately.	Cobalt	136-142	erythropoietin	Mus musculus	226-240	
1289180-2	1992	Since it has been demonstrated that cobalt (Co) treatment rises renal EPO-mRNA and increases plasma EPO levels, the present study was conducted to determine whether there is a difference between PH and HT mice in relation to the erythropoietic response to Co and whether the stimulatory effect of Co on EPO secretion can be blunted by polycythemia.	Cobalt	36-47	erythropoietin	Mus musculus	70-73	
1289180-2	1992	Since it has been demonstrated that cobalt (Co) treatment rises renal EPO-mRNA and increases plasma EPO levels, the present study was conducted to determine whether there is a difference between PH and HT mice in relation to the erythropoietic response to Co and whether the stimulatory effect of Co on EPO secretion can be blunted by polycythemia.	Cobalt	36-47	erythropoietin	Mus musculus	100-103	
1289180-2	1992	Since it has been demonstrated that cobalt (Co) treatment rises renal EPO-mRNA and increases plasma EPO levels, the present study was conducted to determine whether there is a difference between PH and HT mice in relation to the erythropoietic response to Co and whether the stimulatory effect of Co on EPO secretion can be blunted by polycythemia.	Cobalt	36-47	erythropoietin	Mus musculus	100-103	
163577-3	1975	In addition, cobalt increases the activity of an erythropoietin-generating enzyme (renal erythropoietic factor) with maximal enzyme activity occurring after the rise in cyclic AMP levels but before the increase in erythropoietin titers.	Cobalt	13-19	erythropoietin	Mus musculus	49-63	
2387842-7	1990	These results suggest that the ribonucleoprotein containing the down-regulated RNA species may be a negative transcriptional factor and that activation of the erythropoietin gene by cobalt salts may involve, in part, decreased binding of this factor, thus allowing transcription to proceed.	Cobalt	182-194	erythropoietin	Mus musculus	159-173	
163577-3	1975	In addition, cobalt increases the activity of an erythropoietin-generating enzyme (renal erythropoietic factor) with maximal enzyme activity occurring after the rise in cyclic AMP levels but before the increase in erythropoietin titers.	Cobalt	13-19	erythropoietin	Mus musculus	214-228	
163577-9	1975	These results suggest that cyclic AMP plays a significant role in the renal production of erythropoietin following cobalt administration.	Cobalt	115-121	erythropoietin	Mus musculus	90-104	
29887316-4	2018	EPO production was suppressed by palmitate (palmitate-conjugated bovine serum albumin [BSA]) or a high palmitate diet, but not oleic acid-conjugated BSA or a high oleic acid diet, especially under cobalt-induced pseudo-hypoxia both in vitro and in vivo.	Cobalt	197-203	erythropoietin	Mus musculus	0-3