Gaston Caruso scite author profile

Gaston Caruso

2Publications

2Citation Statements Received

17Citation Statements Given

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National University of Quilmes

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CoDNaS-Q: a database of conformational diversity of the native state of proteins with quaternary structure

Escobedo

Cahui

Caruso

et al. 2022

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Summary A collection of conformers that exist in a dynamical equilibrium defines the native state of a protein. The structural differences between them describe their conformational diversity, a defining characteristic of the protein with an essential role in multiple cellular processes. Since most proteins carry out their functions by assembling into complexes, we have developed CoDNaS-Q, the first online resource to explore conformational diversity in homooligomeric proteins. It features a curated collection of redundant protein structures with known quaternary structure. CoDNaS-Q integrates relevant annotations that allow researchers to identify and explore the extent and possible reasons of conformational diversity in homooligomeric protein complexes. Availability and Implementation CoDNaS-Q is freely accessible at http://ufq.unq.edu.ar/codnasq/ or https://codnas-q.bioinformatica.org/home. The data can be retrieved from the website. The source code of the database can be downloaded from https://github.com/SfrRonaldo/codnas-q. Supplementary information Supplementary data are available at Bioinformatics online.

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CoDNaS-Q: a database of conformational diversity of the native state of proteins with quaternary structure

Escobedo

Cahui

Caruso

et al. 2022

Preprint

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Summary: A collection of conformers that exist in a dynamical equilibrium defines the native state of a protein. The structural differences between them describe their conformational diversity, a defining characteristic of the protein with an essential role in multiple cellular processes. Since most proteins carry out their functions by assembling into complexes, we have developed CoDNaS-Q, the first online resource to explore conformational diversity in homooligomeric proteins. It features a curated collection of redundant protein structures with known quaternary structure. CoDNaS-Q integrates relevant annotations that allow researchers to identify and explore the extent and possible reasons of conformational diversity in homooligomeric protein complexes. Availability and implementation: CoDNaS-Q is freely accessible at http://ufq.unq.edu.ar/codnasq/. The data can be retrieved from the website. The source code of the database can be downloaded from https://github.com/SfrRonaldo/codnas-q. Contact: npalopoli@unq.edu.ar Supplementary information: Supplementary data are available at Bioinformatics online.

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Gaston Caruso

CoDNaS-Q: a database of conformational diversity of the native state of proteins with quaternary structure

CoDNaS-Q: a database of conformational diversity of the native state of proteins with quaternary structure

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