PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
3059825-0	1988	Insulin increases loop segment chloride reabsorption in the euglycemic rat.	Chlorides	31-39	insulin	Homo sapiens	0-7	
2676073-6	1989	Reagents such as chloride and phenol govern the conformations present in the insulin hexamers and this can influence the behaviour and properties of insulin preparations employing them.	Chlorides	17-25	insulin	Homo sapiens	77-84	
2676073-6	1989	Reagents such as chloride and phenol govern the conformations present in the insulin hexamers and this can influence the behaviour and properties of insulin preparations employing them.	Chlorides	17-25	insulin	Homo sapiens	149-156	
2650739-1	1989	The ionic strength dependence of the reaction rate between protein and dichloride anion radical has been investigated by flash photolysis of aqueous chloride-containing lysozyme, ribonuclease A, or insulin.	Chlorides	73-81	insulin	Homo sapiens	198-205	
3059825-4	1988	Early distal chloride delivery decreased (P less than 0.001) during insulin administration.	Chlorides	13-21	insulin	Homo sapiens	68-75	
3059825-5	1988	Insulin infusion increased calculated loop chloride reabsorption compared with both base-line values and values for time-control rats.	Chlorides	43-51	insulin	Homo sapiens	0-7	
3059825-7	1988	We conclude that 1) euglycemic insulin administration reduces urinary chloride excretion in volume-expanded rats by tubular mechanisms; 2) in superficial nephrons, insulin has no effect on proximal tubule fluid or chloride reabsorption but markedly stimulates chloride reabsorption in the loop; and 3) chloride reabsorption in the distal convoluted tubule was unaltered by insulin administration.	Chlorides	70-78	insulin	Homo sapiens	31-38	
5348493-6	1969	After insulin the rise of chloride was proportionately greater than the rise of hydrogen, so that neutral chloride was increased.	Chlorides	26-34	insulin	Homo sapiens	6-13	
6390430-7	1984	Unlike the surface of the 2-zinc insulin hexamer, which possesses a shallow depression containing a zinc ion and its coordinating water molecules, the 4-zinc human insulin hexamer contains a zinc and chloride ion at the bottom of an 8-A tunnel produced by three parallel alpha-helices.	Chlorides	200-208	insulin	Homo sapiens	164-171	
5348493-6	1969	After insulin the rise of chloride was proportionately greater than the rise of hydrogen, so that neutral chloride was increased.	Chlorides	106-114	insulin	Homo sapiens	6-13	
5896907-0	1965	Insulin: preliminary x-ray studies of chloride crystals and a crystalline derivative.	Chlorides	38-46	insulin	Homo sapiens	0-7	
28527712-8	2017	It also shows that zinc coordinates to histidine residues in an environment, which is similar to the coordination seen in the insulin R6 hexamers, where three histidine residues and a chloride ion is coordinating the zinc.	Chlorides	184-192	insulin	Homo sapiens	126-133	
31561709-5	2021	METHOD: Experimental insulin adsorption data from literature is used to calculate insulin delivery and total insulin adsorption capacities for polyethylene (PE) and polyvinal chloride (PVC) lines at clinically relevant flow rates and concentrations.	Chlorides	165-183	insulin	Homo sapiens	21-28	
31561709-5	2021	METHOD: Experimental insulin adsorption data from literature is used to calculate insulin delivery and total insulin adsorption capacities for polyethylene (PE) and polyvinal chloride (PVC) lines at clinically relevant flow rates and concentrations.	Chlorides	185-188	insulin	Homo sapiens	21-28	
31561709-6	2021	RESULTS: Insulin adsorption capacity decreased hyperbolically with flow rate for both PE and PVC, where low flow scenarios result in greater insulin adherence to infusion lines.	Chlorides	93-96	insulin	Homo sapiens	9-16	
32422433-1	2020	Chloride fluxes through the calcium-gated chloride channel Anoctamin-1 (TMEM16A) control blood pressure, secretion of saliva, mucin, insulin, and melatonin, gastrointestinal motility, sperm capacitation and motility, and pain sensation.	Chlorides	0-8	insulin	Homo sapiens	133-140	
11408264-0	2001	Insulin and IGF-I inhibit calcium-dependent chloride secretion by T84 human colonic epithelial cells.	Chlorides	44-52	insulin	Homo sapiens	0-7	
11408264-5	2001	Basolateral, but not apical, addition of insulin inhibited carbachol- and thapsigargin-induced chloride secretion in a time- and concentration-dependent fashion.	Chlorides	95-103	insulin	Homo sapiens	41-48	
11408264-7	2001	Insulin had no effect on Ins(3,4,5,6)P(4) levels, and the inhibitory effects of insulin and IGF-I on chloride secretion were fully reversed by the PI 3-kinase inhibitors wortmannin and LY-294002.	Chlorides	101-109	insulin	Homo sapiens	80-87	
11408264-9	2001	In conclusion, insulin and IGF-I act to inhibit calcium-dependent chloride secretion through a PI 3-kinase-dependent pathway.	Chlorides	66-74	insulin	Homo sapiens	15-22	
24161582-8	2014	Some OC pesticides or PCBs, such as dichlorodiphenyltrichloroethanes (DDTs), chlordanes, and PCBs with 5 or less chlorides showed significant associations with diabetes or insulin resistance.	Chlorides	113-122	insulin	Homo sapiens	172-179	
15649573-3	2005	Among parameters, body mass index (BMI), the fasting plasma glucose level (FPG), and plasma chloride concentration were identified by forward-stepwise discriminant analysis as parameters that can discriminate between patients who were and those who were not undergoing insulin therapy.	Chlorides	92-100	insulin	Homo sapiens	269-276	
7589855-1	1995	Although chloride ions are known to modulate insulin release and islet electrical activity, the mechanism or mechanisms mediating these effects are unclear.	Chlorides	9-17	insulin	Homo sapiens	45-52