蛋白质在内质网上的转运III. 信号识别蛋白(SRP)导致依赖信号序列和位点特异性的链延伸停滞,这种停滞可被微粒体膜解除。
Translocation of proteins across the endoplasmic reticulum III. Signal recognition protein (SRP) causes signal sequence-dependent and site-specific arrest of chain elongation that is released by microsomal membranes.
作者信息
Walter P, Blobel G
出版信息
J Cell Biol. 1981 Nov;91(2 Pt 1):557-61. doi: 10.1083/jcb.91.2.557.
Abstract
The previously observed (Walter, et al. 1981 J. Cell Biol. 91:545-550) inhibitory effect of SRP selectively on the cell-free translation of mRNA for secretory protein (preprolactin) was shown here to be caused by a signal sequence-induced and site-specific arrest in polypeptide chain elongation. The Mr of the SRP-arrested nascent preprolactin chain was estimated to be 8,000 corresponding to approximately 70 amino acid residues. Because the signal sequence of preprolactin comprises 30 residues and because approximately 40 residues of the nascent chain are buried (protected from protease) in the large ribosomal subunit, we conclude that it is the interaction of SRP with the amino-terminal signal peptide of the nascent chain (emerged from the large ribosomal subunit) that modulates translation and thereby causes an arrest in chain elongation. This arrest is released upon SRP-mediated binding of the elongation-arrested ribosomes to the microsomal membrane, resulting in chain completion and translocation into the microsomal vesicle.
摘要
先前观察到的(Walter等人,1981年,《细胞生物学杂志》91:545 - 550)信号识别颗粒(SRP)对分泌蛋白(前催乳素)mRNA无细胞翻译的选择性抑制作用,在此被证明是由信号序列诱导的多肽链延伸位点特异性停滞所致。SRP停滞的新生前催乳素链的分子量估计为8000,对应约70个氨基酸残基。由于前催乳素的信号序列包含30个残基,且新生链约40个残基被埋在大核糖体亚基中(受蛋白酶保护),我们得出结论,是SRP与新生链(从大核糖体亚基伸出)的氨基末端信号肽相互作用调节翻译,从而导致链延伸停滞。当SRP介导延伸停滞的核糖体与微粒体膜结合时,这种停滞被解除,导致链完成并转运到微粒体囊泡中。
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