PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29055397-3	2017	Elastin can be degraded by elastases and has a high calcium affinity.	Calcium	52-59	elastin	Homo sapiens	0-7	
31991212-5	2020	At physiological pH, the degree of elastin mineralization is influenced by hydrolysis and complexity of medium composition, since ionic species, as sodium, potassium, magnesium, in addition to calcium and phosphorus, interfere with the calcification process.	Calcium	193-200	elastin	Homo sapiens	35-42	
9501199-0	1998	Nuclear and cytoplasmic free calcium level changes induced by elastin peptides in human endothelial cells.	Calcium	29-36	elastin	Homo sapiens	62-69	
24748954-7	2014	Efforts to understand these associations through studying the effects of processes such as calcium and lipid binding and glycation on the mechanical properties of elastin preparations in vitro have produced a confusing picture, and further efforts are required to determine the molecular basis of such effects.	Calcium	91-98	elastin	Homo sapiens	163-170	
11428170-7	2001	A progressive age dependent uncoupling of the elastin-laminin receptor occurs impairing its transduction pathway and which results in alteration of the calcium signaling and loss in calcium homeostasis of the cells.	Calcium	152-159	elastin	Homo sapiens	46-53	
11428170-7	2001	A progressive age dependent uncoupling of the elastin-laminin receptor occurs impairing its transduction pathway and which results in alteration of the calcium signaling and loss in calcium homeostasis of the cells.	Calcium	182-189	elastin	Homo sapiens	46-53	
9854552-5	1998	In this study, the ability of amlodipine--a calcium antagonist--to influence elastin degradation, was assessed in a previously described model of aneurysmal disease.	Calcium	44-51	elastin	Homo sapiens	77-84	
17274635-1	2007	In this work, we report a new method to reversibly immobilize proteins to a surface in a functionally active orientation directly from cell lysate by employing a fusion protein consisting of a thermal-responsive elastin (ELP) domain as the surface anchor and a calcium-responsive calmodulin (CalM) domain for protein capturing.	Calcium	261-268	elastin	Homo sapiens	212-219	
15039439-3	2004	Binding assays revealed high affinity calcium-independent binding of two overlapping fibrillin-1 fragments (encoded by central exons 18-25 and 24-30) to tropoelastin, which, in microfibrils, map to an exposed "arms" feature adjacent to the beads.	Calcium	38-45	elastin	Homo sapiens	153-165	
15662945-1	2004	Action on calcium fluxes and vasomotricity induced by elastin peptides].	Calcium	10-17	elastin	Homo sapiens	54-61	
15662945-11	2004	For example, the age-dependant vasodilation and endothelial calcium influx induced by elastin peptide are modulated by extracellular glucose levels.	Calcium	60-67	elastin	Homo sapiens	86-93	
12888257-4	2003	Our results show that low (0 mM) or high (33 mM) extracellular glucose concentrations abolish the extracellular calcium influx induced, under normal glucose level (11 mM), by the elastin peptides in cultured human endothelial cells.	Calcium	112-119	elastin	Homo sapiens	179-186	
11805834-5	2002	Here we show that fibulin-5 is a calcium-dependent, elastin-binding protein that localizes to the surface of elastic fibres in vivo.	Calcium	33-40	elastin	Homo sapiens	52-59	
11704704-3	2001	Calcium antagonists may affect many calcium-dependent events in the formation of atherosclerosis such as the localized accumulation of collagen, elastin, and calcium together with monocyte infiltration and smooth muscle proliferation and migration.	Calcium	0-7	elastin	Homo sapiens	145-152	
11704704-3	2001	Calcium antagonists may affect many calcium-dependent events in the formation of atherosclerosis such as the localized accumulation of collagen, elastin, and calcium together with monocyte infiltration and smooth muscle proliferation and migration.	Calcium	36-43	elastin	Homo sapiens	145-152	
11881065-12	2001	2) higher doses of captopril and enalapril prevent the hypercholesterolaemia-induced increase in aortic elastin-bound calcium.	Calcium	118-125	elastin	Homo sapiens	104-111	
11064275-2	2000	The matrix metalloproteinases (MMPs) are a family of zinc- and calcium-dependent enzymes produced by inflammatory cells that are capable of degrading collagen, elastin, and proteoglycans.	Calcium	63-70	elastin	Homo sapiens	160-167	
10761632-6	1999	The calcium transients triggered by elastin peptides acting on the receptor decrease with age, the receptor appears to be uncoupled from the G-proteins, but superoxide release is increased.	Calcium	4-11	elastin	Homo sapiens	36-43	
9180345-0	1997	Effect of lithium on superoxide production and intracellular free calcium mobilization in elastin peptide (kappa-elastin) and FMLP stimulated human PMNS.	Calcium	66-73	elastin	Homo sapiens	90-97	
9180345-0	1997	Effect of lithium on superoxide production and intracellular free calcium mobilization in elastin peptide (kappa-elastin) and FMLP stimulated human PMNS.	Calcium	66-73	elastin	Homo sapiens	113-120	
7669085-7	1995	Biochemical studies of aortic wall and purified elastin showed significantly increased content of lipids (atherosclerotic 67.7 mmol/g elastin, control 54.7 mmol/g elastin) and calcium (atherosclerotic 38.3 mmol/g elastin, control 19.6 mmol/g elastin).	Calcium	176-183	elastin	Homo sapiens	48-55	
8896999-13	1996	Calcium binding to elastin was increased at acid pH, but decreased at higher pH.	Calcium	0-7	elastin	Homo sapiens	19-26	
15374255-9	1995	Indeed it has been demonstrated that calcium antagonists have a protective effect against vascular lesions because they inhibit smooth muscle cell proliferation, lipid uptake by macrophages and the production of collagen and elastin.	Calcium	37-44	elastin	Homo sapiens	225-232	
8062142-9	1994	Calcium accumulation was most marked in the middle, elastin-rich layer of the media, increasing from 1.4 micrograms Ca/mg tissue at 20 years of age to 49.50 micrograms Ca/mg tissue by 90 years of age.	Calcium	0-7	elastin	Homo sapiens	52-59	
8279451-7	1994	Energy dispersive x-ray analysis and TEM demonstrated iron and calcium on the microfibrillar portion of elastin.	Calcium	63-70	elastin	Homo sapiens	104-111	
2166694-6	1990	One of them at least, the elastin receptor was shown to be linked through a G-protein-phospholipase C-IP3 mediated relay to the regulation of intracellular calcium.	Calcium	156-163	elastin	Homo sapiens	26-33	
8149747-1	1993	Binding of proteins, lipoproteins and calcium salts to arterial elastin occurs with age and in disease.	Calcium	38-45	elastin	Homo sapiens	64-71	
1416069-4	1992	Its antagonism to calcium is speculated to play a protective role in maintaining the extensibility of elastin.	Calcium	18-25	elastin	Homo sapiens	102-109	
1867300-3	1991	We postulate that the abnormal aggregation of macromolecules with a high affinity for calcium (resulting in abnormalities in elastin in cases of pseudoxanthoma elasticum) also develops at the cribriform plate, disrupting axonal flow and leading to disk drusen formation.	Calcium	86-93	elastin	Homo sapiens	125-132	
3103130-2	1987	In small amounts (between 0.1 and 1 microgram/ml), elastin peptides strongly increased calcium influx and inhibited calcium efflux by an apparently calmodulin-dependent mechanism.	Calcium	87-94	elastin	Homo sapiens	51-58	
3201397-0	1988	Inhibitory effects of soluble elastin on intraplatelet free calcium concentration.	Calcium	60-67	elastin	Homo sapiens	30-37	
3390898-0	1988	Effect of elastin peptides and N-formyl-methionyl-leucyl phenylalanine on cytosolic free calcium in polymorphonuclear leukocytes of healthy middle-aged and elderly subjects.	Calcium	89-96	elastin	Homo sapiens	10-17	
35364318-7	2022	Additionally, we find that elevated levels of calcium ions and glucose hinder the extensibility of tropoelastin by rearranging structural domains and altering hydrogen bonding patterns, respectively.	Calcium	46-53	elastin	Homo sapiens	99-111	
35364318-12	2022	Here, we present the first study on how these changes in elastin structure and extensibility are induced by hypercalcemia and hyperglycemia at a molecular scale, revealing the essential roles that calcium and glucose play in triggering structural alterations and mechanical stiffness.	Calcium	197-204	elastin	Homo sapiens	57-64	
3103130-2	1987	In small amounts (between 0.1 and 1 microgram/ml), elastin peptides strongly increased calcium influx and inhibited calcium efflux by an apparently calmodulin-dependent mechanism.	Calcium	116-123	elastin	Homo sapiens	51-58	
4421595-0	1974	Calcium ion binding to carbonyls of elastin hexapeptide.	Calcium	0-7	elastin	Homo sapiens	36-43	
3643024-5	1986	The action of elastin peptides on intracellular calcium level and cGMP levels may well be related to its previously demonstrated chemotactic activity.	Calcium	48-55	elastin	Homo sapiens	14-21	
4843779-0	1974	Additional evidence for the binding of calcium ions to elastin at neutral sites.	Calcium	39-46	elastin	Homo sapiens	55-62	
4372871-0	1974	Calcium binding to elastin.	Calcium	0-7	elastin	Homo sapiens	19-26	
4279804-0	1974	Investigations of free and elastin-bound fluorescent substances present in the atherosclerotic lipid and calcium-plaques.	Calcium	105-112	elastin	Homo sapiens	27-34	
4823434-0	1974	Neutral site binding of calcium ion to elastin coacervate IR spectroscopy.	Calcium	24-31	elastin	Homo sapiens	39-46	
4411779-0	1974	A synthetic polypeptide related to elastin and its interaction with calcium ions.	Calcium	68-75	elastin	Homo sapiens	35-42	
4474887-0	1974	Specificity and sites of calcium ion interactions with elastin.	Calcium	25-32	elastin	Homo sapiens	55-62	
5110569-0	1971	Altered lipid and calcium binding by calcified aortic elastin.	Calcium	18-25	elastin	Homo sapiens	54-61	
4251554-0	1971	Neutral sites for calcium ion binding to elastin and collagen: a charge neutralization theory for calcification and its relationship to atherosclerosis.	Calcium	18-25	elastin	Homo sapiens	41-48	
5103930-0	1971	Calcium ion effects a notable change in elastin conformation by interacting at neutral sites.	Calcium	0-7	elastin	Homo sapiens	40-47	
4251554-1	1971	Neutral, uncharged binding sites for calcium ions are proposed for elastin and collagen.	Calcium	37-44	elastin	Homo sapiens	67-74	
4995409-0	1970	Coordinately bound calcium as a cross linking agent in elastin and as an activator of elastolysis.	Calcium	19-26	elastin	Homo sapiens	55-62	
5553332-0	1971	Some features of the binding of calcium ions to elastin.	Calcium	32-39	elastin	Homo sapiens	48-55	
5721103-0	1968	Some features of the binding of calcium ions to elastin.	Calcium	32-39	elastin	Homo sapiens	48-55