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Single‐molecule dynamics of the molecular chaperone trigger factor in living cells
Author(s) -
Yang Feng,
Chen TaiYen,
Krzemiński Łukasz,
Santiago Ace George,
Jung Won,
Chen Peng
Publication year - 2016
Publication title -
molecular microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.857
H-Index - 247
eISSN - 1365-2958
pISSN - 0950-382X
DOI - 10.1111/mmi.13529
Subject(s) - ribosome , biology , chaperone (clinical) , microbiology and biotechnology , bimolecular fluorescence complementation , ribosomal protein , elongation factor , protein fragment complementation assay , complementation , biophysics , biochemistry , rna , mutant , gene , medicine , pathology
Summary In bacteria, trigger factor (TF) is the molecular chaperone that interacts with the ribosome to assist the folding of nascent polypeptides. Studies in vitro have provided insights into the function and mechanism of TF. Much is to be elucidated, however, about how TF functions in vivo . Here, we use single‐molecule tracking, in combination with genetic manipulations, to study the dynamics and function of TF in living E. coli cells. We find that TF, besides interacting with the 70S ribosome, may also bind to ribosomal subunits and form TF‐polypeptide complexes that may include DnaK/DnaJ proteins. The TF‐70S ribosome interactions are highly dynamic inside cells, with an average residence time of ∼0.2 s. Our results confirm that the signal recognition particle weakens TF's interaction with the 70S ribosome, and further identify that this weakening mainly results from a change in TF's binding to the 70S ribosome, rather than its unbinding. Moreover, using photoconvertible bimolecular fluorescence complementation, we selectively probe TF 2 dimers in the cell and show that TF 2 does not bind to the 70S ribosome but is involved in the post‐translational interactions with polypeptides. These findings contribute to the fundamental understanding of molecular chaperones in assisting protein folding in living cells.

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