Cwikel B, Avner R, Czosnek H H, Hochberg A A, De Groot N
Mol Biol Rep. 1976 Jul;2(6):455-63. doi: 10.1007/BF00356934.
The isolation of rough and smooth endoplasmic reticulum from rat parotid salivary gland is described. The rough membrane was stripped of its bound ribosomes using the KCl-puromycin method. Rough endoplasmic reticulum was reconstituted from stripped-rough membrane and polyribosomes. The reconstituted rough membrane resembled the native rough membrane in the following aspects: RNA/protein ratio, buoyant density in a continuous sucrose gradient and amino acid incorporation capacity. The in vitro synthesis of alpha-amylase by both rough and in vitro reconstituted rough membrane was demonstrated using SDS polyacrylamide gel electrophoresis. The reconstituted rough membrane could be restripped by KCl-puromycin. The in vitro synthesized alpha-amylase remained associated with the rough or the in vitro reconstituted rough membrane, even after these membranes were stripped of their bound ribosomes.
本文描述了从大鼠腮腺唾液腺中分离粗面内质网和滑面内质网的方法。使用氯化钾-嘌呤霉素法去除粗面内质网膜上结合的核糖体。从脱核糖体的粗面内质网膜和多核糖体中重构粗面内质网。重构的粗面内质网在以下方面类似于天然粗面内质网:RNA/蛋白质比率、在连续蔗糖梯度中的浮力密度以及氨基酸掺入能力。使用十二烷基硫酸钠-聚丙烯酰胺凝胶电泳证明了粗面内质网和体外重构的粗面内质网均可体外合成α-淀粉酶。重构的粗面内质网可以用氯化钾-嘌呤霉素再次脱核糖体。即使这些膜上的结合核糖体被去除,体外合成的α-淀粉酶仍与粗面内质网或体外重构的粗面内质网结合。