PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25228763-5	2014	Here, we resolve this issue by showing that a plasma membrane chloride channel, encoded by ClC-a, is exclusively expressed in the stellate cell and is required for Drosophila kinin-mediated induction of diuresis and chloride shunt conductance, evidenced by chloride ion movement through the stellate cells, leading to depolarization of the transepithelial potential.	Chlorides	62-70	Leucokinin	Drosophila melanogaster	175-180	
25228763-5	2014	Here, we resolve this issue by showing that a plasma membrane chloride channel, encoded by ClC-a, is exclusively expressed in the stellate cell and is required for Drosophila kinin-mediated induction of diuresis and chloride shunt conductance, evidenced by chloride ion movement through the stellate cells, leading to depolarization of the transepithelial potential.	Chlorides	216-224	Leucokinin	Drosophila melanogaster	175-180	
25228763-8	2014	Therefore, the diuretic action of kinin in Drosophila can be explained by an increase in ClC-a-mediated chloride conductance, over and above a resting fluid transport level that relies on other (ClC-a-independent) mechanisms or routes.	Chlorides	104-112	Leucokinin	Drosophila melanogaster	34-39	
8786336-7	1996	Taken together, these results show that leucokinin acts through intracellular Ca2+, independently of cyclic AMP or cyclic GMP, to raise the chloride permeability of the epithelium.	Chlorides	140-148	Leucokinin	Drosophila melanogaster	40-50	
31913700-8	2020	Drosophila kinin decreased transepithelial potential and increased chloride permeability, and stimulated fluid secretion in both control and adult mesh knockdown tubules, but had no effect on 4 kDa dextran flux.	Chlorides	67-75	Leucokinin	Drosophila melanogaster	11-16	
23445619-3	2013	Two such agents are the biogenic amine tyramine (TA) and the peptide drosokinin (DK), both of which act on the stellate cells of the tubule to increase transepithelial chloride conductance.	Chlorides	168-176	Leucokinin	Drosophila melanogaster	69-79	
23446525-2	2013	In Drosophila, both Drosophila kinin and tyramine act on the Malpighian (renal) tubule stellate cell to activate chloride shunt conductance, and so increase the fluid production rate.	Chlorides	113-121	Leucokinin	Drosophila melanogaster	31-36	
23446525-7	2013	Therefore, tyramine and Drosophila kinin signals converge on phospholipase C, and thence on intracellular calcium; and both act to increase chloride shunt conductance by signalling through itpr.	Chlorides	140-148	Leucokinin	Drosophila melanogaster	35-40