PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25765155-10	2015	Moreover, Epo reduced the basal intracellular calcium (Ca(2+)) levels, suggesting an effect in the Ca(2+)-signaling pathway.	Calcium	46-53	erythropoietin	Mus musculus	10-13	
23456860-19	2013	Epo has been shown to regulate a variety of cell functions such as calcium flux (Korbel et al.	Calcium	67-74	erythropoietin	Mus musculus	0-3	
24756702-6	2014	The major demonstrated functions of TRPC2 are regulation of pheromone-evoked signaling in the rodent VNO, regulation of erythropoietin-stimulated calcium influx in murine erythroid cells, and ZP3-evoked calcium influx into sperm.	Calcium	146-153	erythropoietin	Mus musculus	120-134	
15329338-0	2004	Erythropoietin-modulated calcium influx through TRPC2 is mediated by phospholipase Cgamma and IP3R.	Calcium	25-32	erythropoietin	Mus musculus	0-14	
21924222-1	2012	Transient receptor potential (TRP) channels Trpc2 and Trpc3 are expressed on normal murine erythroid precursors, and erythropoietin stimulates an increase in intracellular calcium ([Ca(2+)](i)) through TRPC2 and TRPC3.	Calcium	172-179	erythropoietin	Mus musculus	117-131	
21924222-9	2012	Although erythropoietin-induced calcium influx through TRPC2 or TRPC3 is not critical for erythroid production, these data demonstrate that TRPC2 plays an important role in oxidative stress-induced hemolysis, which may be related to reduced calcium entry in red cells in the presence of Trpc2 depletion.	Calcium	32-39	erythropoietin	Mus musculus	9-23	
21924222-9	2012	Although erythropoietin-induced calcium influx through TRPC2 or TRPC3 is not critical for erythroid production, these data demonstrate that TRPC2 plays an important role in oxidative stress-induced hemolysis, which may be related to reduced calcium entry in red cells in the presence of Trpc2 depletion.	Calcium	241-248	erythropoietin	Mus musculus	9-23	
19164545-5	2009	Activation of group I mGluRs triggers fast and highly regular intracellular calcium oscillations and we show that EPO interferes with this signaling event by altering the frequency of the oscillations.	Calcium	76-83	erythropoietin	Mus musculus	114-117	
18276585-1	2008	Erythropoietin (Epo) stimulates a significant increase in the intracellular calcium concentration ([Ca(2+)](i)) through activation of the murine transient receptor potential channel TRPC2, but TRPC2 is a pseudogene in humans.	Calcium	76-83	erythropoietin	Mus musculus	0-14	
18276585-1	2008	Erythropoietin (Epo) stimulates a significant increase in the intracellular calcium concentration ([Ca(2+)](i)) through activation of the murine transient receptor potential channel TRPC2, but TRPC2 is a pseudogene in humans.	Calcium	76-83	erythropoietin	Mus musculus	16-19	
15329338-2	2004	Erythroblasts were isolated from the spleens of phenylhydrazine-treated mice, and Epo stimulation resulted in a significant and dose-dependent increase in intracellular calcium concentration ([Ca(2+)](i)).	Calcium	169-176	erythropoietin	Mus musculus	82-85	
1367500-4	1990	When calcium-free suspension culture media (Joklik, DME-S, McCoy 5A-S) were used, single cell suspension cultures were obtained and high Epo production observed.	Calcium	5-12	erythropoietin	Mus musculus	137-140	
12167663-0	2002	Erythropoietin modulates calcium influx through TRPC2.	Calcium	25-32	erythropoietin	Mus musculus	0-14	
12167663-2	2002	Erythropoietin (Epo) stimulates a rise in intracellular calcium ([Ca](i)) via activation of voltage-independent calcium channel(s) in erythroid cells.	Calcium	56-63	erythropoietin	Mus musculus	0-14	
12167663-2	2002	Erythropoietin (Epo) stimulates a rise in intracellular calcium ([Ca](i)) via activation of voltage-independent calcium channel(s) in erythroid cells.	Calcium	56-63	erythropoietin	Mus musculus	16-19	
12167663-11	2002	These results identify a calcium-permeable channel, TRPC2, in erythroid cells and demonstrate modulation of calcium influx through this channel by erythropoietin.	Calcium	25-32	erythropoietin	Mus musculus	147-161	
10995753-5	2000	We also observed that Epo stimulation activates Jak2/Stat5 signal transduction and increases cytoplasmic calcium, which is dependent on tyrosine phosphorylation.	Calcium	105-112	erythropoietin	Mus musculus	22-25	
1284250-0	1992	Regulation of programmed death in erythroid progenitor cells by erythropoietin: effects of calcium and of protein and RNA syntheses.	Calcium	91-98	erythropoietin	Mus musculus	64-78	
2792225-0	1989	Calcium response to erythropoietin in erythroleukemia cells.	Calcium	0-7	erythropoietin	Mus musculus	20-34	
2792225-2	1989	The antigen-positive subpopulation of cells responded to EPO by transiently changing indo 1 fluorescence emissions, indicating a change in cytoplasmic calcium concentration.	Calcium	151-158	erythropoietin	Mus musculus	57-60	
2496770-0	1989	The effect of recombinant erythropoietin on intracellular free calcium in erythropoietin-responsive cells.	Calcium	63-70	erythropoietin	Mus musculus	26-40	
2496770-0	1989	The effect of recombinant erythropoietin on intracellular free calcium in erythropoietin-responsive cells.	Calcium	63-70	erythropoietin	Mus musculus	74-88	
30048878-5	2018	The current work aimed to explore the dynamics of calcium transport across Spalax nonhematopoietic cells" membrane compared to above ground rat and mouse, and the role of the erythropoietin receptor of Spalax in the regulation of calcium influx under hypoxia.	Calcium	230-237	erythropoietin	Mus musculus	175-189	
35563527-0	2022	DOT1L Methyltransferase Regulates Calcium Influx in Erythroid Progenitor Cells in Response to Erythropoietin.	Calcium	34-41	erythropoietin	Mus musculus	94-108	
35563527-2	2022	An important downstream response of EPO signaling is calcium (Ca2+) influx, which is regulated by transient receptor potential channel (TRPC) proteins, particularly TRPC2 and TRPC6.	Calcium	53-60	erythropoietin	Mus musculus	36-39	
2496770-1	1989	We have investigated whether recombinant erythropoietin (r-Epo) elicits a change in intracellular free calcium (IFC) in purified Epo-responsive cells in spleens of mice treated with phenylhydrazine.	Calcium	103-110	erythropoietin	Mus musculus	41-55	
2496770-1	1989	We have investigated whether recombinant erythropoietin (r-Epo) elicits a change in intracellular free calcium (IFC) in purified Epo-responsive cells in spleens of mice treated with phenylhydrazine.	Calcium	103-110	erythropoietin	Mus musculus	59-62	
115902-2	1979	The in vitro plasma clot technique was employed to examine the role of calcium during the interaction of erythropoietin and mouse erythroid progenitor cells.	Calcium	71-78	erythropoietin	Mus musculus	105-119	
115902-8	1979	Marrow cells incubated first in calcium-free medium with erythropoietin and then cultured in the presence of calcium but not erythropoietin, failed to form erythroid colonies although colony formation occurred when erythropoietin was provided.	Calcium	32-39	erythropoietin	Mus musculus	57-71	
115902-9	1979	Taken together, the data indicate that calcium is required for both extracellular and intracellular events during the interaction of erythropoietin with its target cells.	Calcium	39-46	erythropoietin	Mus musculus	133-147