PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25463674-3	2014	We proposed that Ca(II), K(I), Mg(II), La(III) and Ni(II), between layers are important to form efficient water-oxidizing catalyst, but not specific in water oxidation.	Magnesium	31-34	carbonic anhydrase 2	Homo sapiens	17-23	
25918859-9	2015	At a higher concentration, the mechanical properties of Zn and Mg doped HAP also depend significantly on impurity distribution between the Ca1 and Ca2 sites.	Magnesium	63-65	carbonic anhydrase 2	Homo sapiens	147-150	
24720692-5	2014	Furthermore, Ca(II) addition did not change the thickness of the cake layer, but inhibited the deposition of other elements, such as Al, Si, Mg, and Fe.	Magnesium	141-143	carbonic anhydrase 2	Homo sapiens	13-19	
14762707-12	2004	The complex stability orders for both1 and2 are Ca(II)<Mg(II)<Zn(II)<Cu(II).	Magnesium	58-60	carbonic anhydrase 2	Homo sapiens	48-54	
8358532-1	1993	Interaction of ionized magnesium ([Mg2+]o) and caffeine in regulation of intracellular free calcium concentration ([Ca2+]i) in human aortic endothelial cells was studied using fura-2 and digital imaging microscopy.	Magnesium	23-32	carbonic anhydrase 2	Homo sapiens	116-119	
10191266-4	1999	Phosphorylation-induced release of Ca2+ from the ATPase is biphasic at alkaline pH, which is consistent with sequential release of Ca2+ from the phosphorylated ATPase; the rates of both components decrease with increasing Mg concentration.	Magnesium	222-224	carbonic anhydrase 2	Homo sapiens	35-38	
10191266-4	1999	Phosphorylation-induced release of Ca2+ from the ATPase is biphasic at alkaline pH, which is consistent with sequential release of Ca2+ from the phosphorylated ATPase; the rates of both components decrease with increasing Mg concentration.	Magnesium	222-224	carbonic anhydrase 2	Homo sapiens	131-134	
31804819-3	2020	Although Mg2+ is the well-known physiological ion used by protein kinases, Ca2+ ions can also assist the phosphoryl transfer reaction but with lower catalytic activities.	Magnesium	9-12	carbonic anhydrase 2	Homo sapiens	75-78	
34081070-10	2021	Furthermore, selectivity of the hybrid was confirmed by selective sorption of the above heavy metal ions from mixtures involving alkali (Na(i), K(i)) and alkaline Earth (Mg(ii), Ca(ii)) metal ions due to the chelating properties of the terpyridine subunits, as demonstrated with municipal drinking (tap) water samples.	Magnesium	170-172	carbonic anhydrase 2	Homo sapiens	173-175	
2729592-2	1989	The selectivity of Mg2+ over Na+, K+, H+, and Ca2+ is sufficient for assays of intracellular magnesium ion activities.	Magnesium	93-102	carbonic anhydrase 2	Homo sapiens	46-49	
7138858-2	1982	Ca2+ uptake into a membrane fraction is shown to be stimulated at low concentrations of ATP and Ca2+ and to require magnesium ions.	Magnesium	116-125	carbonic anhydrase 2	Homo sapiens	0-3	
2387288-0	1990	Hippocampal epileptiform activity induced by magnesium-free medium: differences between areas CA1 and CA2-3.	Magnesium	45-54	carbonic anhydrase 2	Homo sapiens	102-107	
2387288-10	1990	In the hippocampal slice exposed to low magnesium, IIBs originate in CA2-3 and are propagated to CA1, where they can have a suppressant effect on EGSs.	Magnesium	40-49	carbonic anhydrase 2	Homo sapiens	69-74	
29492773-5	2018	The ability of these metal ions to produce oligosaccharide adduct ions by ESI had the general trend: Ca(II) > Mg(II) > Ni(II) > Co(II) > Zn(II) > Cu(II) > Na(I) > K(I) > Al(III)   Fe(III)   Cr(III).	Magnesium	113-115	carbonic anhydrase 2	Homo sapiens	101-107	
29601189-4	2018	Alkaline earth salts with chiral phosphate counterions are found to be more catalytically active than the protic form, and the Ca(II) and Mg(II) CPA salts react via different mechanisms, with a higher coordination number favored by calcium over magnesium.	Magnesium	245-254	carbonic anhydrase 2	Homo sapiens	127-133