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Autori principali: Galaz, German Mino, Baez, Javier Patino, Berdu, Nicolas Mino, Suarez, Jose Gonzalez
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.16456
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author Galaz, German Mino
Baez, Javier Patino
Berdu, Nicolas Mino
Suarez, Jose Gonzalez
author_facet Galaz, German Mino
Baez, Javier Patino
Berdu, Nicolas Mino
Suarez, Jose Gonzalez
contents This research reports the entropy transfer throughout the tridimensional structure of PDZ-2 and TIM barrel structures using the dynamic Gaussian Network Model. The model predicts the allocation of the allosteric pathways of the PDZ-2. Moreover. A visualization analysis reveals that entropy and information is transported towards the effector site in PDZ-2 and near to the catalytic site of the TIM-Barrel protein. The results suggest the presence of a functional hierarchy that determine information and entropy flow directionality.
format Preprint
id arxiv_https___arxiv_org_abs_2511_16456
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Entropy Transfer Throughout the Structure of PDZ-2 and TIM-Barrel Proteins. A Dynamic Gaussian Network Model Study
Galaz, German Mino
Baez, Javier Patino
Berdu, Nicolas Mino
Suarez, Jose Gonzalez
Biomolecules
This research reports the entropy transfer throughout the tridimensional structure of PDZ-2 and TIM barrel structures using the dynamic Gaussian Network Model. The model predicts the allocation of the allosteric pathways of the PDZ-2. Moreover. A visualization analysis reveals that entropy and information is transported towards the effector site in PDZ-2 and near to the catalytic site of the TIM-Barrel protein. The results suggest the presence of a functional hierarchy that determine information and entropy flow directionality.
title Entropy Transfer Throughout the Structure of PDZ-2 and TIM-Barrel Proteins. A Dynamic Gaussian Network Model Study
topic Biomolecules
url https://arxiv.org/abs/2511.16456