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Molecular Forces Governing the Biological Function of Per-Arnt-Sim-B (PAS-B) Domains: A Comparative Computational Study

Lookup NU author(s): Dr Joao Victor De Souza Cunha, Dr Piotr Zaborniak, Sylwia Reznikov, Matthew Kondal, Dr Ruidi Zhu, Dr Agnieszka Bronowska

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This work is licensed under a Creative Commons Attribution 4.0 International License (CC BY 4.0).


Abstract

© 2021 by the authors.Per-Arnt-Sim (PAS) domains are evolutionarily-conserved regions found in proteins in all living systems, involved in transcriptional regulation and the response to hypoxic and xenobiotic stress. Despite having low primary sequence similarity, they show an impressively high structural conservation. Nonetheless, understanding the underlying mechanisms that drive the biological function of the PAS domains remains elusive. In this work, we used molecular dynamics simulations and bioinformatics tools in order the investigate the molecular characteristics that govern the intrinsic dynamics of five PAS-B domains (human AhR receptor, NCOA1, HIF1α, and HIF2α transcription factors, and Drosophila Suzukii (D. Suzukii) juvenile hormone receptor JHR). First, we investigated the effects of different length of N and C terminal regions of the AhR PAS-B domain, showing that truncation of those segments directly affects structural stability and aggregation propensity of the domain. Secondly, using the recently annotated PAS-B located in the methoprene-tolerant protein/juvenile hormone receptor (JHR) from D. Suzukii, we have shown that the mutation of the highly conserved “gatekeeper” tyrosine to phenylalanine (Y322F) does not affect the stability of the domain. Finally, we investigated possible redox-regulation of the AhR PAS-B domain by focusing on the cysteinome residues within PAS-B domains. The cysteines in AhR PAS-B are directly regulating the dynamics of the small molecule ligand-gating loop (residues 305 to 326). In conclusion, we comprehensibly described several molecular features governing the behaviour of PAS-B domains in solution, which may lead to a better understanding of the forces driving their biological functions.


Publication metadata

Author(s): de Souza JV, Zaborniak P, Reznikov S, Kondal M, Zhu R, Bronowska AK

Publication type: Article

Publication status: Published

Journal: Biophysica

Year: 2021

Volume: 1

Issue: 1

Pages: 1-14

Print publication date: 01/03/2021

Online publication date: 05/02/2021

Acceptance date: 12/01/2021

Date deposited: 29/11/2023

ISSN (electronic): 2673-4125

Publisher: Multidisciplinary Digital Publishing Institute (MDPI)

URL: https://doi.org/10.3390/biophysica1010001

DOI: 10.3390/biophysica1010001

Data Access Statement: Data available on request.


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Funding

Funder referenceFunder name
AstraZeneca
EP/S022791/1EPSRC
Faculty of Science, Agriculture, and Engineering, Newcastle University
EPSRC
IAFRI-FERA
iCASE
School of Natural and Environmental Sciences, Newcastle University

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