Thrift R N, Andrews D W, Walter P, Johnson A E
Department of Chemistry and Biochemistry, University of Oklahoma, Norman 73019.
J Cell Biol. 1991 Mar;112(5):809-21. doi: 10.1083/jcb.112.5.809.
The immediate environment of nascent membrane proteins undergoing integration into the ER membrane was investigated by photocrosslinking. Nascent polypeptides of different lengths, each containing a single IgM transmembrane sequence that functions either as a stop-transfer or a signal-anchor sequence, were synthesized by in vitro translation of truncated mRNAs in the presence of N epsilon-(5-azido-2-nitrobenzoyl)-Lys-tRNA, signal recognition particle, and microsomal membranes. This yielded nascent chains with photoreactive probes at one end of the transmembrane sequence where two lysine residues are located. When irradiated, these nascent chains reacted covalently with several ER proteins. One prominent crosslinking target was a glycoprotein similar in size to a protein termed mp39, shown previously to be situated adjacent to a secretory protein during its translocation across the ER membrane (Krieg, U. C., A. E. Johnson, and P. Walter. 1989. J. Cell Biol. 109:2033-2043; Wiedmann, M., D. Goerlich, E. Hartmann, T. V. Kurzchalia, and T. A. Rapoport. 1989. FEBS (Fed. Eur. Biochem. Soc.) Lett. 257:263-268) and likely to be identical to a protein previously designated the signal sequence receptor (Wiedmann, M., T. V. Kurzchalia, E. Hartmann, and T. A. Rapoport. 1987. Nature (Lond.). 328:830-833). Changing the orientation of the transmembrane domain in the bilayer, or making the transmembrane domain the first topogenic sequence in the nascent chain instead of the second, did not significantly alter the identities of the ER proteins that were the primary crosslinking targets. Furthermore, the nascent chains crosslinked to the mp39-like glycoprotein and other microsomal proteins even after the cytoplasmic tail of the nascent chain had been lengthened by nearly 100 amino acids beyond the stop-transfer sequence. Yet when the nascent chain was allowed to terminate normally, the major photocrosslinks were no longer observed, including in particular that to the mp39-like glycoprotein. These results show that the transmembrane segment of a nascent membrane protein is located adjacent to the mp39-like glycoprotein and other ER proteins during the integration process, and that at least a portion of the nascent chain remains in close proximity to these ER proteins until translation has been completed.
通过光交联研究了正在整合到内质网(ER)膜中的新生膜蛋白的直接环境。在存在Nε-(5-叠氮基-2-硝基苯甲酰基)-Lys-tRNA、信号识别颗粒和微粒体膜的情况下,通过体外翻译截短的mRNA,合成了不同长度的新生多肽,每个多肽都含有一个单一的IgM跨膜序列,该序列可作为终止转移序列或信号锚定序列发挥作用。这产生了在跨膜序列一端带有光反应性探针的新生链,该跨膜序列处有两个赖氨酸残基。照射后,这些新生链与几种内质网蛋白发生共价反应。一个突出的交联靶点是一种糖蛋白,其大小与一种名为mp39的蛋白相似,先前已证明在分泌蛋白跨内质网膜转运过程中,mp39与该分泌蛋白相邻(克里格,U.C.,A.E.约翰逊,和P.沃尔特。1989年。《细胞生物学杂志》。109:2033 - 2043;维德曼,M.,D.戈尔利希,E.哈特曼,T.V.库尔扎利亚,和T.A.拉波波特。1989年。《欧洲生物化学学会联合会快报》。257:263 - 268),并且可能与先前指定为信号序列受体的一种蛋白相同(维德曼,M.,T.V.库尔扎利亚,E.哈特曼,和T.A.拉波波特。1987年。《自然》(伦敦)。328:830 - 833)。改变跨膜结构域在双层膜中的方向,或者使跨膜结构域成为新生链中的第一个拓扑序列而不是第二个,并没有显著改变作为主要交联靶点的内质网蛋白的身份。此外,即使新生链的胞质尾在终止转移序列之后延长了近100个氨基酸,新生链仍与mp39样糖蛋白和其他微粒体蛋白交联。然而,当新生链正常终止时,主要的光交联不再被观察到,尤其是与mp39样糖蛋白的交联。这些结果表明,新生膜蛋白的跨膜片段在整合过程中位于mp39样糖蛋白和其他内质网蛋白附近,并且在翻译完成之前,新生链的至少一部分仍与这些内质网蛋白紧密相邻。