Issue 32, 2023

Tidying up the conformational ensemble of a disordered peptide by computational prediction of spectroscopic fingerprints

Abstract

The most advanced structure prediction methods are powerless in exploring the conformational ensemble of disordered peptides and proteins and for this reason the “protein folding problem” remains unsolved. We present a novel methodology that enables the accurate prediction of spectroscopic fingerprints (circular dichroism, infrared, Raman, and Raman optical activity), and by this allows for “tidying up” the conformational ensembles of disordered peptides and disordered regions in proteins. This concept is elaborated for and applied to a dodecapeptide, whose spectroscopic fingerprint is measured and theoretically predicted by means of enhanced-sampling molecular dynamics coupled with quantum mechanical calculations. Following this approach, we demonstrate that peptides lacking a clear propensity for ordered secondary-structure motifs are not randomly, but only conditionally disordered. This means that their conformational landscape, or phase-space, can be well represented by a basis-set of conformers including about 10 to 100 structures. The implications of this finding have profound consequences both for the interpretation of experimental electronic and vibrational spectral features of peptides in solution and for the theoretical prediction of these features using accurate and computationally expensive techniques. The here-derived methods and conclusions are expected to fundamentally impact the rationalization of so-far elusive structure–spectra relationships for disordered peptides and proteins, towards improved and versatile structure prediction methods.

Graphical abstract: Tidying up the conformational ensemble of a disordered peptide by computational prediction of spectroscopic fingerprints

Supplementary files

Article information

Article type
Edge Article
Submitted
01 5月 2023
Accepted
15 7月 2023
First published
19 7月 2023
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2023,14, 8483-8496

Tidying up the conformational ensemble of a disordered peptide by computational prediction of spectroscopic fingerprints

M. Michaelis, L. Cupellini, C. Mensch, C. C. Perry, M. Delle Piane and L. Colombi Ciacchi, Chem. Sci., 2023, 14, 8483 DOI: 10.1039/D3SC02202A

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