PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
12196518-0	2002	Calmodulin modulates the delay period between release of calcium from internal stores and activation of calcium influx via endogenous TRP1 channels.	Calcium	57-64	LOC100759184	Cricetulus griseus	0-10	
12196518-0	2002	Calmodulin modulates the delay period between release of calcium from internal stores and activation of calcium influx via endogenous TRP1 channels.	Calcium	57-64	short transient receptor potential channel 1	Cricetulus griseus	134-138	
12196518-0	2002	Calmodulin modulates the delay period between release of calcium from internal stores and activation of calcium influx via endogenous TRP1 channels.	Calcium	104-111	LOC100759184	Cricetulus griseus	0-10	
12196518-0	2002	Calmodulin modulates the delay period between release of calcium from internal stores and activation of calcium influx via endogenous TRP1 channels.	Calcium	104-111	short transient receptor potential channel 1	Cricetulus griseus	134-138	
12196518-1	2002	In the present study we have explored the role of calmodulin (CaM) and inositol 1,4,5-trisphosphate receptor (IP(3)R) in the communication process activated after the release of calcium from the endoplasmic reticulum (ER) and the activation of calcium influx via endogenous TRP1 channels from Chinese hamster ovary cells.	Calcium	178-185	LOC100759184	Cricetulus griseus	50-60	
12196518-1	2002	In the present study we have explored the role of calmodulin (CaM) and inositol 1,4,5-trisphosphate receptor (IP(3)R) in the communication process activated after the release of calcium from the endoplasmic reticulum (ER) and the activation of calcium influx via endogenous TRP1 channels from Chinese hamster ovary cells.	Calcium	178-185	LOC100759184	Cricetulus griseus	62-65	
12196518-1	2002	In the present study we have explored the role of calmodulin (CaM) and inositol 1,4,5-trisphosphate receptor (IP(3)R) in the communication process activated after the release of calcium from the endoplasmic reticulum (ER) and the activation of calcium influx via endogenous TRP1 channels from Chinese hamster ovary cells.	Calcium	244-251	LOC100759184	Cricetulus griseus	50-60	
12196518-6	2002	Furthermore, the use of selective CaM antagonists W7 and trifluoperazine maleate resulted in a substantial reduction of the delay period to 200 +/- 100 ms with 5 microm trifluoperazine maleate (n = 16) and 150 +/- 50 ms with 500 nm W7 (n = 22).	W 7	50-52	LOC100759184	Cricetulus griseus	34-37	
12196518-6	2002	Furthermore, the use of selective CaM antagonists W7 and trifluoperazine maleate resulted in a substantial reduction of the delay period to 200 +/- 100 ms with 5 microm trifluoperazine maleate (n = 16) and 150 +/- 50 ms with 500 nm W7 (n = 22).	trifluoperazine dimaleate	57-80	LOC100759184	Cricetulus griseus	34-37	
12196518-6	2002	Furthermore, the use of selective CaM antagonists W7 and trifluoperazine maleate resulted in a substantial reduction of the delay period to 200 +/- 100 ms with 5 microm trifluoperazine maleate (n = 16) and 150 +/- 50 ms with 500 nm W7 (n = 22).	trifluoperazine dimaleate	169-192	LOC100759184	Cricetulus griseus	34-37	
12196518-7	2002	CaM reduced also the current density activated by thapsigargin or brandykinin to about 60% from control.	Thapsigargin	50-62	LOC100759184	Cricetulus griseus	0-3	
12196518-7	2002	CaM reduced also the current density activated by thapsigargin or brandykinin to about 60% from control.	brandykinin	66-77	LOC100759184	Cricetulus griseus	0-3	
12196518-9	2002	The results presented here are consistent with an antagonistic effect of IP(3)R and CaM for the activation of store operated calcium after depletion of the ER.	Calcium	125-132	LOC100759184	Cricetulus griseus	84-87	
12196518-10	2002	The functional competition between the activating effect of IP(3)R and the inhibiting effect of CaM may modulate the delay period between the release of calcium from the ER and the activation of calcium influx observed in different cells, as well as the amount of current activated after depletion of the ER.	Calcium	153-160	LOC100759184	Cricetulus griseus	96-99	
12196518-10	2002	The functional competition between the activating effect of IP(3)R and the inhibiting effect of CaM may modulate the delay period between the release of calcium from the ER and the activation of calcium influx observed in different cells, as well as the amount of current activated after depletion of the ER.	Calcium	195-202	LOC100759184	Cricetulus griseus	96-99