Monitoring cotranslational protein folding in mammalian cells at codon resolution
Author(s) -
Yan Han,
Alexandre David,
Botao Liu,
Javier G. Magadán,
Jack R. Bennink,
Jonathan W. Yewdell,
ShuBing Qian
Publication year - 2012
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.011
H-Index - 771
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.1208138109
Subject(s) - hemagglutinin (influenza) , translocon , protein folding , ribosome , folding (dsp implementation) , biology , epitope , translation (biology) , computational biology , microbiology and biotechnology , biochemistry , rna , gene , genetics , messenger rna , antibody , electrical engineering , chromosomal translocation , engineering
How the ribosome-bound nascent chain folds to assume its functional tertiary structure remains a central puzzle in biology. In contrast to refolding of a denatured protein, cotranslational folding is complicated by the vectorial nature of nascent chains, the frequent ribosome pausing, and the cellular crowdedness. Here, we present a strategy called folding-associated cotranslational sequencing that enables monitoring of the folding competency of nascent chains during elongation at codon resolution. By using an engineered multidomain fusion protein, we demonstrate an efficient cotranslational folding immediately after the emergence of the full domain sequence. We also apply folding-associated cotranslational sequencing to track cotranslational folding of hemagglutinin in influenza A virus-infected cells. In contrast to sequential formation of distinct epitopes, the receptor binding domain of hemagglutinin follows a global folding route by displaying two epitopes simultaneously when the full sequence is available. Our results provide direct evidence of domain-wise global folding that occurs cotranslationally in mammalian cells.
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