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The role of conformational selection in the molecular recognition of the wild type and mutants XPA67-80 peptides by ERCC1

The role of conformational selection in the molecular recognition of the wild type and mutants XPA67-80 peptides by ERCC1
The role of conformational selection in the molecular recognition of the wild type and mutants XPA67-80 peptides by ERCC1

Molecular recognition is a fundamental step in the coordination of biomolecular pathways. Understanding how recognition and binding occur between highly flexible protein domains is a complex task. The conformational selection theory provides an elegant rationalization of the recognition mechanism, especially valid in cases when unstructured protein regions are involved. The recognition of a poorly structured peptide, namely XPA67-80, by its target receptor ERCC1, falls in this challenging study category. The microsecond molecular dynamics (MD) simulations, discussed in this work, show that the conformational propensity of the wild type XPA67-80 peptide in solution supports conformational selection as the key mechanism driving its molecular recognition by ERCC1. Moreover, all the mutations of the XPA67-80 peptide studied here cause a significant increase of its conformational disorder, relative to the wild type. Comparison to experimental data suggests that the loss of the recognized structural motifs at the microscopic time scale can contribute to the critical decrease in binding observed for one of the mutants, further substantiating the key role of conformational selection in recognition. Ultimately, because of the high sequence identity and analogy in binding, it is conceivable that the conclusions of this study on the XPA67-80 peptide also apply to the ERCC1-binding domain of the XPA protein.

Conformational flexibility, Conformational selection, Disordered proteins, Induced fit, Molecular dynamics, Molecular recognition, Nucleotide excision repair, XPA-ERCC1
0887-3585
1341-1351
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb

Fadda, Elisa (2015) The role of conformational selection in the molecular recognition of the wild type and mutants XPA67-80 peptides by ERCC1. Proteins: Structure, Function and Bioinformatics, 83 (7), 1341-1351. (doi:10.1002/prot.24825).

Record type: Article

Abstract

Molecular recognition is a fundamental step in the coordination of biomolecular pathways. Understanding how recognition and binding occur between highly flexible protein domains is a complex task. The conformational selection theory provides an elegant rationalization of the recognition mechanism, especially valid in cases when unstructured protein regions are involved. The recognition of a poorly structured peptide, namely XPA67-80, by its target receptor ERCC1, falls in this challenging study category. The microsecond molecular dynamics (MD) simulations, discussed in this work, show that the conformational propensity of the wild type XPA67-80 peptide in solution supports conformational selection as the key mechanism driving its molecular recognition by ERCC1. Moreover, all the mutations of the XPA67-80 peptide studied here cause a significant increase of its conformational disorder, relative to the wild type. Comparison to experimental data suggests that the loss of the recognized structural motifs at the microscopic time scale can contribute to the critical decrease in binding observed for one of the mutants, further substantiating the key role of conformational selection in recognition. Ultimately, because of the high sequence identity and analogy in binding, it is conceivable that the conclusions of this study on the XPA67-80 peptide also apply to the ERCC1-binding domain of the XPA protein.

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More information

Published date: 1 July 2015
Additional Information: Publisher Copyright: © 2015 Wiley Periodicals, Inc..
Keywords: Conformational flexibility, Conformational selection, Disordered proteins, Induced fit, Molecular dynamics, Molecular recognition, Nucleotide excision repair, XPA-ERCC1

Identifiers

Local EPrints ID: 499776
URI: http://eprints.soton.ac.uk/id/eprint/499776
DOI: doi:10.1002/prot.24825
ISSN: 0887-3585
PURE UUID: 23188b1b-0d39-474c-91e0-70bfff86eea9
ORCID for Elisa Fadda: ORCID iD orcid.org/0000-0002-2898-7770

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Date deposited: 03 Apr 2025 16:47
Last modified: 04 Apr 2025 02:10

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Author: Elisa Fadda ORCID iD

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