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AuthorKhan, Abbas
AuthorZahid, Muhammad Ammar
AuthorShahab, Muhammad
AuthorAl-Zoubi, Raed M.
AuthorShkoor, Mohanad
AuthorBenameur, Tarek
AuthorAgouni, Abdelali
Available date2024-09-26T10:55:21Z
Publication Date2024-04-30
Publication NameJournal of Biomolecular Structure and Dynamics
Identifierhttp://dx.doi.org/10.1080/07391102.2024.2335289
CitationKhan, A., Zahid, M. A., Shahab, M., Al-Zoubi, R. M., Shkoor, M., Benameur, T., & Agouni, A. (2024). Investigating the role of functional mutations in leucine binding to Sestrin2 in aging and age-associated degenerative pathologies using structural and molecular simulation approaches. Journal of Biomolecular Structure and Dynamics, 1-13.
ISSN0739-1102
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85192086559&origin=inward
URIhttp://hdl.handle.net/10576/59370
AbstractLeucine is the native known ligand of Sestrin2 (Sesn2) and its interaction with Sesn2 is particularly important, as it influences the activity of mTOR in aging and its associated pathologies. It is important to find out how leucine interacts with Sesn2 and how mutations in the binding pocket of leucine affect the binding of leucine. Therefore, this study was committed to investigating the impact of non-synonymous mutations by incorporating a broad spectrum of simulation techniques, from molecular dynamics to free energy calculations. Our study was designed to model the atomic-scale interactions between leucine and mutant forms of Sesn2. Our results demonstrated that the interaction paradigm for the mutants has been altered thus showing a significant decline in the hydrogen bonding network. Moreover, these mutations compromised the dynamic stability by altering the conformational flexibility, sampling time, and leucine-induced structural constraints that consequently caused variation in the binding and structural stability. Molecular dynamics-based flexibility analysis revealed that the regions 217–339 and 371–380 demonstrated a higher fluctuation. Noteworthy, these regions correspond to a linker (217–339) and a loop (371–380) that cover the leucine binding cavity that is critical for the ‘latch’ mechanism in the N-terminal, which is essential for leucine binding. Further validation of reduced binding and modified internal motions caused by the mutants was obtained through binding free energy calculations, principal components analysis (PCA), and free energy landscape (FEL) analysis. By unraveling the molecular intricacies of Sesn2-leucine interactions and their mutations, we hope to pave the way for innovative strategies to combat the inevitable tide of aging and its associated diseases. Communicated by Ramaswamy H. Sarma.
SponsorOpen Access funding provided by the Qatar National Library. This work was funded by Qatar National Research Fund (Qatar Research Development and Innovation Council) [grant No. NPRP14S-0406-210150].
Languageen
PublisherTaylor & Francis
Subjectaging
free energy calculations
molecular interactions
molecular simulation
Sestrin2
TitleInvestigating the role of functional mutations in leucine binding to Sestrin2 in aging and age-associated degenerative pathologies using structural and molecular simulation approaches
TypeArticle
Pagination1-13
ESSN1538-0254
dc.accessType Open Access


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