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Synthesis runs counter to directional folding of a nascent protein domain

Xiuqi Chen, Nandakumar Rajasekaran, Kaixian Liu, Christian Kaiser

2020Nature Communications27 citationsDOIOpen Access PDF

Abstract

Folding of individual domains in large proteins during translation helps to avoid otherwise prevalent inter-domain misfolding. How folding intermediates observed in vitro for the majority of proteins relate to co-translational folding remains unclear. Combining in vivo and single-molecule experiments, we followed the co-translational folding of the G-domain, encompassing the first 293 amino acids of elongation factor G. Surprisingly, the domain remains unfolded until it is fully synthesized, without collapsing into molten globule-like states or forming stable intermediates. Upon fully emerging from the ribosome, the G-domain transitions to its stable native structure via folding intermediates. Our results suggest a strictly sequential folding pathway initiating from the C-terminus. Folding and synthesis thus proceed in opposite directions. The folding mechanism is likely imposed by the final structure and might have evolved to ensure efficient, timely folding of a highly abundant and essential protein.

Topics & Concepts

Folding (DSP implementation)Protein foldingTranslation (biology)RibosomeBiophysicsPhi value analysisDomain (mathematical analysis)ChemistryProtein domainBiologyBiochemistryRNAGeneMathematical analysisElectrical engineeringMessenger RNAEngineeringMathematicsRNA and protein synthesis mechanismsProtein Structure and DynamicsBiochemical and Structural Characterization
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