PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
16259620-4	2006	CA-C had a greater affinity for negatively charged lipids (phosphatidic acid and phosphatidylserine) than for zwitterionic lipids [PC/Cho/SM (equimolar mixture of phosphatidylcholine, cholesterol and sphingomyelin) and phosphatidylcholine].	Phosphatidylcholines	163-182	carbonic anhydrase 2	Homo sapiens	0-4	
16259620-4	2006	CA-C had a greater affinity for negatively charged lipids (phosphatidic acid and phosphatidylserine) than for zwitterionic lipids [PC/Cho/SM (equimolar mixture of phosphatidylcholine, cholesterol and sphingomyelin) and phosphatidylcholine].	Phosphatidylcholines	219-238	carbonic anhydrase 2	Homo sapiens	0-4	
9007991-5	1997	As monitored by anti-factor IX:Ca (II)-specific antibodies and by the quenching of intrinsic fluorescence, all these factor IX species underwent the Ca(II)-induced conformational transition required for phospholipid membrane binding and bound equivalently to phospholipid vesicles composed of phosphatidylserine, phosphatidylcholine, and phosphatidylethanolamine.	Phosphatidylcholines	313-332	carbonic anhydrase 2	Homo sapiens	149-155	
8384040-8	1993	Reconstitution of the isolated skeletal muscle SR Ca2+ ATPase in phosphatidylcholine membranes in the presence of PLN using the freezing and thawing technique yielded a preparation with lower Ca(2+)-dependent ATPase activity.	Phosphatidylcholines	65-84	carbonic anhydrase 2	Homo sapiens	50-53	
8003498-3	1994	Upon Ca2+ crenation of cells, surface exposure of phosphatidylserine and phosphatidylethanolamine was observed simultaneously with inward diffusion of phosphatidylcholine.	Phosphatidylcholines	151-170	carbonic anhydrase 2	Homo sapiens	5-8	
6510702-11	1984	It has been shown by freeze-fracture electron microscopy that the addition of Ca+2, Mg+2, Mn+2 or Cd+2 to suspensions of egg phosphatidylcholine and cardiolipin (1:1 or 3:1) leads to the formation of numerous intramembrane particles (imp"s) and crater-like (stalk) structures.	Phosphatidylcholines	125-144	carbonic anhydrase 2	Homo sapiens	78-82	
2454133-5	1988	However, a redistribution of both gramicidin and dansyl-labeled phospholipids was easily observed when a phase separation was induced by adding Ca2+ to vesicles made up of phosphatidylcholine and phosphatidic acid.	Phosphatidylcholines	172-191	carbonic anhydrase 2	Homo sapiens	144-147	
2454133-6	1988	Polarization measurements showed that in the presence of Ca2+ a rigid phosphatidic acid rich region and a more fluid phosphatidylcholine-rich region were formed.	Phosphatidylcholines	117-136	carbonic anhydrase 2	Homo sapiens	57-60	
3676318-0	1987	Leakage from egg phosphatidylcholine vesicles induced by Ca2+ and alcohols.	Phosphatidylcholines	17-36	carbonic anhydrase 2	Homo sapiens	57-60	
3676318-1	1987	The results shown in this paper indicate that the permeability properties of egg yolk phosphatidylcholine sonicated vesicles as detected by the leakage of carboxy fluorescein changes according to the Ca2+ content.	Phosphatidylcholines	86-105	carbonic anhydrase 2	Homo sapiens	200-203	
3838686-7	1985	From these results we propose a long-range attractive interaction between bound Ca2+ and the polar head groups of distant phosphatidylcholine molecules.	Phosphatidylcholines	122-141	carbonic anhydrase 2	Homo sapiens	80-83	
3964657-4	1986	Ca2+-induced fusion of phosphatidylserine vesicles served to test the method and was shown to have an exponential half-time of 7 s. Phase separation (between the phosphatidylserine head groups of bulk lipid and the phosphatidylcholine head groups of the probe) was monitored by DPHpPC under the same conditions used to follow lipid mixing due to fusion.	Phosphatidylcholines	215-234	carbonic anhydrase 2	Homo sapiens	0-3	
3009039-1	1986	Ca2+-translocating activities of phosphatidylinositol, diacylglycerol and phosphatidic acid were investigated in phosphatidylcholine liposomes.	Phosphatidylcholines	113-132	carbonic anhydrase 2	Homo sapiens	0-3	
3009039-2	1986	Using a fluorescent indicator of Ca2+ concentration, quin-2, release of encapsulated Ca2+ from egg yolk phosphatidylcholine liposomes containing 2 mol% of one of these lipids was measured at 37 degrees C. The rate of Ca2+ translocation across the liposomal membrane mediated by phosphatidic acid was about 3-fold larger than those mediated by phosphatidylinositol and diacylglycerol.	Phosphatidylcholines	104-123	carbonic anhydrase 2	Homo sapiens	85-88	
3009039-2	1986	Using a fluorescent indicator of Ca2+ concentration, quin-2, release of encapsulated Ca2+ from egg yolk phosphatidylcholine liposomes containing 2 mol% of one of these lipids was measured at 37 degrees C. The rate of Ca2+ translocation across the liposomal membrane mediated by phosphatidic acid was about 3-fold larger than those mediated by phosphatidylinositol and diacylglycerol.	Phosphatidylcholines	104-123	carbonic anhydrase 2	Homo sapiens	85-88	
573139-1	1979	The addition of Ca2+ to small unilamellar vesicles of an equimolar mixture of egg phosphatidylcholine and cardiolipin induces fusion of these vesicles in association with the appearance of lipidic particles on the fusion sites.	Phosphatidylcholines	82-101	carbonic anhydrase 2	Homo sapiens	16-19	
7397160-1	1980	The kinetics of Ca2+-induced fusion of phosphatidylcholine-phosphatidic acid vesicles has been studied using the dependence of proton nuclear magnetic resonance linewidths on vesicle size.	Phosphatidylcholines	39-58	carbonic anhydrase 2	Homo sapiens	16-19	
391228-0	1979	Asymmetry requirement for Ca2+ induced fusion of phosphatidylcholine-phosphatidic acid vesicles.	Phosphatidylcholines	49-68	carbonic anhydrase 2	Homo sapiens	26-29	
28177616-4	2017	Electrokinetic potential measurements of PI(4,5)P2 containing liposomes reveal that Ca2+ as well as Mg2+ reduce the zeta potential of liposomes to nearly background levels of pure phosphatidylcholine membranes.	Phosphatidylcholines	180-199	carbonic anhydrase 2	Homo sapiens	84-87