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Autori principali: Chari, Vishnu Rama, Behera, Raghu Nath
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.04664
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author Chari, Vishnu Rama
Behera, Raghu Nath
author_facet Chari, Vishnu Rama
Behera, Raghu Nath
contents In the search for small organoselenium-based mimics of the glutathione peroxidase (GPx) enzyme, it has been observed that selenenyl sulfides (RSeSG) derived from amine-based GPx mimics have the potential to be reduced at the catalytic site of glutathione reductase (GR), thereby enhancing the catalytic efficiency of these mimics in biological systems. However, molecular insights into these interactions are lacking due to the absence of force field parameters for Se-S containing compounds. In this study, we present force field parameters for selenenyl sulfides with a phenyl selenide backbone developed using the General Amber Force Field (GAFF). Employing these parameters, a 200 ns molecular dynamics (MD) simulation of RSeSG was performed. The results indicate that both the amino nitrogen and its substituent significantly influence the interaction of RSeSG at the catalytic site of GR.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fate of amine-based selenenyl sulfides during interaction with glutathione reductase: a molecular dynamics perspective
Chari, Vishnu Rama
Behera, Raghu Nath
Chemical Physics
In the search for small organoselenium-based mimics of the glutathione peroxidase (GPx) enzyme, it has been observed that selenenyl sulfides (RSeSG) derived from amine-based GPx mimics have the potential to be reduced at the catalytic site of glutathione reductase (GR), thereby enhancing the catalytic efficiency of these mimics in biological systems. However, molecular insights into these interactions are lacking due to the absence of force field parameters for Se-S containing compounds. In this study, we present force field parameters for selenenyl sulfides with a phenyl selenide backbone developed using the General Amber Force Field (GAFF). Employing these parameters, a 200 ns molecular dynamics (MD) simulation of RSeSG was performed. The results indicate that both the amino nitrogen and its substituent significantly influence the interaction of RSeSG at the catalytic site of GR.
title Fate of amine-based selenenyl sulfides during interaction with glutathione reductase: a molecular dynamics perspective
topic Chemical Physics
url https://arxiv.org/abs/2512.04664