Resolving chaperone-assisted protein folding on the ribosome at the peptide level

Thomas E. Wales, Aleksandra Pajak, Alžběta Roeselová, Santosh Shivakumaraswamy, Steven Howell, Svend Kjær, F. Ulrich Hartl, John R. Engen, David Balchin
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Abstract

Protein folding in vivo begins during synthesis on the ribosome and is modulated by molecular chaperones that engage the nascent polypeptide. How these features of protein biogenesis influence the maturation pathway of nascent proteins is incompletely understood. Here, we use hydrogen–deuterium exchange mass spectrometry to define, at peptide resolution, the cotranslational chaperone-assisted folding pathway of Escherichia coli dihydrofolate reductase. The nascent polypeptide folds along an unanticipated pathway through structured intermediates not populated during refolding from denaturant. Association with the ribosome allows these intermediates to form, as otherwise destabilizing carboxy-terminal sequences remain confined in the ribosome exit tunnel. Trigger factor binds partially folded states without disrupting their structure, and the nascent chain is poised to complete folding immediately upon emergence of the C terminus from the exit tunnel. By mapping interactions between the nascent chain and ribosomal proteins, we trace the path of the emerging polypeptide during synthesis. Our work reveals new mechanisms by which cellular factors shape the conformational search for the native state.

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在肽水平上解决核糖体上的伴侣辅助蛋白质折叠问题
体内蛋白质的折叠始于核糖体上的合成过程,并受到与新生多肽结合的分子伴侣的调节。人们对蛋白质生物发生的这些特征如何影响新生蛋白质的成熟途径尚不完全清楚。在这里,我们利用氢氘交换质谱法,以肽段分辨率确定了大肠杆菌二氢叶酸还原酶的共翻译伴侣辅助折叠途径。新生多肽沿着一条意料之外的途径折叠,经过的结构中间体在从变性剂重新折叠过程中没有出现。与核糖体的结合使这些中间体得以形成,否则破坏稳定的羧基末端序列将被限制在核糖体出口隧道中。触发因子与部分折叠状态结合而不会破坏它们的结构,新生链准备好在 C 端从出口隧道出现后立即完成折叠。通过绘制新生链与核糖体蛋白之间的相互作用图,我们追踪了合成过程中新生多肽的路径。我们的研究揭示了细胞因素影响原生态构象搜索的新机制。
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