Molecular Dynamics Simulations Reveal Heavy Water-Induced Structural Changes in Subunit c of ATP Synthase and Formation of Aligned Clusters
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Current Medicinal Chemistry
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info:eu-repo/semantics/embargoedAccess
Özet
Deuteration involves the substitution of hydrogen atoms in a molecule with deuterium atoms (2H or D), a stable isotope of hydrogen. In contrast, deuteronation refers to the transfer of a deuteron (D+)- the nucleus of deuterium- to a molecular target, typically through a protonation-like mechanism. Deuterated water, also known as heavy water (D2O), in which both hydrogen atoms in H2O are replaced by deuterium, serves as a common medium through which both deuteration and deuteronation effects can influence biological systems, including enzymatic activity and protein dynamics. ATP synthase is a key enzyme in mitochondrial energy metabolism and deuterium regulation.
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Anahtar Kelimeler
Deuteration, Deuteronation, ATP Synthase C Subunit, Aging, Molecular Dynamics Simulations, Enzymes
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Bentham Science
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LANJANIAN, Hossein, Abdullah OLGUN, Sajjad NEMATZADEH, Mahsa Torkamanian AFSHAR & Farzad KIANI. "Molecular Dynamics Simulations Reveal Heavy Water-Induced Structural Changes in Subunit c of ATP Synthase and Formation of Aligned Clusters". Current Medicinal Chemistry, (2025): 1-18.
