Vale G P, Osório R, Castro E, Carvalho A P
Biochem J. 1976 May 15;156(2):239-44. doi: 10.1042/bj1560239.
Sarcoplasmic reticulum isolated from rabbit skeletal muscle and incubated in a medium containing Ca2+ in the absence of ATP retains intravesicular and/or membrane-bound Ca2+. The synthesis of ATP coupled with the release of intravesicular Ca2+ is totally inhibited by the ionophore X-537A. Release of the membrane-bound Ca2+, retained after short periods of incubation (10min) or after release of the intravesicular Ca2+ by ionophore X-537A, still supports some synthesis of ATP. The ratios of Ca2+ released to ATP synthesized are 2.5-3.2, when bound and intravesicular Ca2+ are released simultaneously, and 3.1-4.0, when only bound Ca2+ is released. The results show that the synthesis of ATP by sarcoplasmic reticulum during release of passively accumulated Ca2+ by EGTA [ethanedioxybis(ethylamine)tetra-acetic acid] is accompanied by a loss of membrane-bound Ca2+.
从兔骨骼肌分离出的肌浆网,在不含ATP但含有Ca2+的培养基中孵育时,会保留囊泡内和/或膜结合的Ca2+。与囊泡内Ca2+释放偶联的ATP合成完全被离子载体X-537A抑制。在短时间孵育(10分钟)后或经离子载体X-537A释放囊泡内Ca2+后保留的膜结合Ca2+的释放,仍能支持一定量的ATP合成。当结合的Ca2+和囊泡内的Ca2+同时释放时,释放的Ca2+与合成的ATP的比率为2.5 - 3.2,而当仅释放结合的Ca2+时,该比率为3.1 - 4.0。结果表明,在通过EGTA [乙二氧基双(乙胺)四乙酸]被动积累的Ca2+释放过程中,肌浆网合成ATP伴随着膜结合Ca2+的丢失。