atp结合膜蛋白是蛋白质跨内质网膜转运所必需的。

D L Zimmerman, P Walter
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引用次数: 17

摘要

核苷酸在提供多肽通过内质网(ER)膜转移的能量中的作用仍然是未知的。为了解决这个问题,我们用ATP的光激活类似物8-N3ATP处理内质网来源的哺乳动物微粒体囊泡。这种治疗导致了易位活性的进行性抑制。大约20个微粒体膜蛋白被[α 32P]8-N3ATP标记。其中两种被鉴定为在易位中可能起作用的蛋白质,α信号序列受体(SSR),信号序列受体复合物的35-kDa亚基,以及ER-p180,一种推测的核糖体受体。我们发现易位活性失活与α SSR的光标记呈正相关。相反,我们的数据表明,ER-p180的atp结合结构域对于易位活性是必不可少的,并且与观察到的微粒体囊泡的8-N3ATP敏感性无关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An ATP-binding membrane protein is required for protein translocation across the endoplasmic reticulum membrane.

The role of nucleotides in providing energy for polypeptide transfer across the endoplasmic reticulum (ER) membrane is still unknown. To address this question, we treated ER-derived mammalian microsomal vesicles with a photoactivatable analogue of ATP, 8-N3ATP. This treatment resulted in a progressive inhibition of translocation activity. Approximately 20 microsomal membrane proteins were labeled by [alpha 32P]8-N3ATP. Two of these were identified as proteins with putative roles in translocation, alpha signal sequence receptor (SSR), the 35-kDa subunit of the signal sequence receptor complex, and ER-p180, a putative ribosome receptor. We found that there was a positive correlation between inactivation of translocation activity and photolabeling of alpha SSR. In contrast, our data demonstrate that the ATP-binding domain of ER-p180 is dispensable for translocation activity and does not contribute to the observed 8-N3ATP sensitivity of the microsomal vesicles.

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