PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
7943783-1	1994	The purpose of this study was to determine the effects of local anesthetics (lidocaine and procaine) and hypothermic perfusion on Na+/Ca2+ exchanger activity during reperfusion-induced calcium paradox in vitro.	Calcium	185-192	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	130-137	
2445678-1	1987	Calcium movement across plasma membranes occurs mainly by three routes: voltage-dependent calcium channels, adenosine 5"-triphosphate-driven calcium pump, and Na+-Ca2 exchange.	Calcium	0-7	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	159-166	
2445678-2	1987	The regulation of the intracellular ionized calcium is the consequence of two parallel calcium transport mechanisms: a high affinity, low capacity system responsible for extruding calcium during resting conditions (calcium pump) and a low affinity and high capacity system (Na+-Ca2 antiporter).	Calcium	44-51	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	274-281	
2445678-2	1987	The regulation of the intracellular ionized calcium is the consequence of two parallel calcium transport mechanisms: a high affinity, low capacity system responsible for extruding calcium during resting conditions (calcium pump) and a low affinity and high capacity system (Na+-Ca2 antiporter).	Calcium	87-94	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	274-281	
2445678-2	1987	The regulation of the intracellular ionized calcium is the consequence of two parallel calcium transport mechanisms: a high affinity, low capacity system responsible for extruding calcium during resting conditions (calcium pump) and a low affinity and high capacity system (Na+-Ca2 antiporter).	Calcium	87-94	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	274-281	
2445678-2	1987	The regulation of the intracellular ionized calcium is the consequence of two parallel calcium transport mechanisms: a high affinity, low capacity system responsible for extruding calcium during resting conditions (calcium pump) and a low affinity and high capacity system (Na+-Ca2 antiporter).	Calcium	87-94	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	274-281	
6326821-11	1984	When proteoliposomes were reconstituted with sodium oxalate inside and incubated with calcium in the presence of an outwardly directed Na+ gradient, the vesicles containing the Na+-Ca2+ exchanger specifically accumulated calcium which precipitated inside as calcium oxalate.	Calcium	86-93	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	177-184	
6326821-11	1984	When proteoliposomes were reconstituted with sodium oxalate inside and incubated with calcium in the presence of an outwardly directed Na+ gradient, the vesicles containing the Na+-Ca2+ exchanger specifically accumulated calcium which precipitated inside as calcium oxalate.	Calcium	221-228	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	177-184	
7910657-7	1994	The delay in the restoration of the sodium gradient may in turn prolong the neuronal exposure to toxic [Ca2+]i values, due to the decrease in the efficiency of the Na+/Ca2+ exchanger to extrude calcium.	Calcium	194-201	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	164-171	
1841953-0	1991	Electrogenic Na(+)-Ca2+ exchanger, the link between intra- and extracellular calcium in the Limulus ventral photoreceptor.	Calcium	77-84	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	13-22	
1841953-18	1991	The results presented here are consistent with the interpretation that a Na(+)-Ca2+ exchanger with a stoichiometry greater than 2:1 is the predominant link between intra- and extracellular calcium.	Calcium	189-196	nascent polypeptide associated complex subunit alpha 2	Homo sapiens	73-82