Title
Systematic mapping of free energy landscapes of a growing filamin domain during biosynthesis
Author
Christopher A. Waudby, Tomasz Wlodarski, Maria-Evangelia Karyadi, Anaïs M. E. Cassaignau, Sammy H. S. Chan, Anne S. Wentink, Julian M. Schmidt-Engler, Carlo Camilloni, Michele Vendruscolo, Lisa D. Cabrita, John Christodoulou
Year
2018
Journal
PNAS
Abstract
Cotranslational folding (CTF) is a fundamental molecular process that ensures efficient protein biosynthesis and minimizes the formation of misfolded states. However, the complexity of this process makes it extremely challenging to obtain structural characterizations of CTF pathways. Here, we correlate observations of translationally arrested nascent chains with those of a systematic C-terminal truncation strategy. We create a detailed description of chain length-dependent free energy landscapes associated with folding of the FLN5 filamin domain, in isolation and on the ribosome, and thus, quantify a substantial destabilization of the native structure on the ribosome. We identify and characterize two folding intermediates formed in isolation, including a partially folded intermediate associated with the isomerization of a conserved cis proline residue. The slow folding associated with this process raises the prospect that neighboring unfolded domains might accumulate and misfold during biosynthesis. We develop a simple model to quantify the risk of misfolding in this situation and show that catalysis of folding by peptidyl-prolyl isomerases is sufficient to eliminate this hazard.
Instrument
J-810
Keywords
Circular dichroism, Secondary structure, Chemical stability, Protein folding, Protein denaturation, Biochemistry