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PubChem3D: a new resource for scientists

BACKGROUND: PubChem is an open repository for small molecules and their experimental biological activity. PubChem integrates and provides search, retrieval, visualization, analysis, and programmatic access tools in an effort to maximize the utility of contributed information. There are many diverse...

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Autores principales: Bolton, Evan E, Chen, Jie, Kim, Sunghwan, Han, Lianyi, He, Siqian, Shi, Wenyao, Simonyan, Vahan, Sun, Yan, Thiessen, Paul A, Wang, Jiyao, Yu, Bo, Zhang, Jian, Bryant, Stephen H
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2011
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3269824/
https://www.ncbi.nlm.nih.gov/pubmed/21933373
http://dx.doi.org/10.1186/1758-2946-3-32
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author Bolton, Evan E
Chen, Jie
Kim, Sunghwan
Han, Lianyi
He, Siqian
Shi, Wenyao
Simonyan, Vahan
Sun, Yan
Thiessen, Paul A
Wang, Jiyao
Yu, Bo
Zhang, Jian
Bryant, Stephen H
author_facet Bolton, Evan E
Chen, Jie
Kim, Sunghwan
Han, Lianyi
He, Siqian
Shi, Wenyao
Simonyan, Vahan
Sun, Yan
Thiessen, Paul A
Wang, Jiyao
Yu, Bo
Zhang, Jian
Bryant, Stephen H
author_sort Bolton, Evan E
collection PubMed
description BACKGROUND: PubChem is an open repository for small molecules and their experimental biological activity. PubChem integrates and provides search, retrieval, visualization, analysis, and programmatic access tools in an effort to maximize the utility of contributed information. There are many diverse chemical structures with similar biological efficacies against targets available in PubChem that are difficult to interrelate using traditional 2-D similarity methods. A new layer called PubChem3D is added to PubChem to assist in this analysis. DESCRIPTION: PubChem generates a 3-D conformer model description for 92.3% of all records in the PubChem Compound database (when considering the parent compound of salts). Each of these conformer models is sampled to remove redundancy, guaranteeing a minimum (non-hydrogen atom pair-wise) RMSD between conformers. A diverse conformer ordering gives a maximal description of the conformational diversity of a molecule when only a subset of available conformers is used. A pre-computed search per compound record gives immediate access to a set of 3-D similar compounds (called "Similar Conformers") in PubChem and their respective superpositions. Systematic augmentation of PubChem resources to include a 3-D layer provides users with new capabilities to search, subset, visualize, analyze, and download data. A series of retrospective studies help to demonstrate important connections between chemical structures and their biological function that are not obvious using 2-D similarity but are readily apparent by 3-D similarity. CONCLUSIONS: The addition of PubChem3D to the existing contents of PubChem is a considerable achievement, given the scope, scale, and the fact that the resource is publicly accessible and free. With the ability to uncover latent structure-activity relationships of chemical structures, while complementing 2-D similarity analysis approaches, PubChem3D represents a new resource for scientists to exploit when exploring the biological annotations in PubChem.
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spelling pubmed-32698242012-02-02 PubChem3D: a new resource for scientists Bolton, Evan E Chen, Jie Kim, Sunghwan Han, Lianyi He, Siqian Shi, Wenyao Simonyan, Vahan Sun, Yan Thiessen, Paul A Wang, Jiyao Yu, Bo Zhang, Jian Bryant, Stephen H J Cheminform Software BACKGROUND: PubChem is an open repository for small molecules and their experimental biological activity. PubChem integrates and provides search, retrieval, visualization, analysis, and programmatic access tools in an effort to maximize the utility of contributed information. There are many diverse chemical structures with similar biological efficacies against targets available in PubChem that are difficult to interrelate using traditional 2-D similarity methods. A new layer called PubChem3D is added to PubChem to assist in this analysis. DESCRIPTION: PubChem generates a 3-D conformer model description for 92.3% of all records in the PubChem Compound database (when considering the parent compound of salts). Each of these conformer models is sampled to remove redundancy, guaranteeing a minimum (non-hydrogen atom pair-wise) RMSD between conformers. A diverse conformer ordering gives a maximal description of the conformational diversity of a molecule when only a subset of available conformers is used. A pre-computed search per compound record gives immediate access to a set of 3-D similar compounds (called "Similar Conformers") in PubChem and their respective superpositions. Systematic augmentation of PubChem resources to include a 3-D layer provides users with new capabilities to search, subset, visualize, analyze, and download data. A series of retrospective studies help to demonstrate important connections between chemical structures and their biological function that are not obvious using 2-D similarity but are readily apparent by 3-D similarity. CONCLUSIONS: The addition of PubChem3D to the existing contents of PubChem is a considerable achievement, given the scope, scale, and the fact that the resource is publicly accessible and free. With the ability to uncover latent structure-activity relationships of chemical structures, while complementing 2-D similarity analysis approaches, PubChem3D represents a new resource for scientists to exploit when exploring the biological annotations in PubChem. BioMed Central 2011-09-20 /pmc/articles/PMC3269824/ /pubmed/21933373 http://dx.doi.org/10.1186/1758-2946-3-32 Text en Copyright ©2011 Bolton et al; licensee Chemistry Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Software
Bolton, Evan E
Chen, Jie
Kim, Sunghwan
Han, Lianyi
He, Siqian
Shi, Wenyao
Simonyan, Vahan
Sun, Yan
Thiessen, Paul A
Wang, Jiyao
Yu, Bo
Zhang, Jian
Bryant, Stephen H
PubChem3D: a new resource for scientists
title PubChem3D: a new resource for scientists
title_full PubChem3D: a new resource for scientists
title_fullStr PubChem3D: a new resource for scientists
title_full_unstemmed PubChem3D: a new resource for scientists
title_short PubChem3D: a new resource for scientists
title_sort pubchem3d: a new resource for scientists
topic Software
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3269824/
https://www.ncbi.nlm.nih.gov/pubmed/21933373
http://dx.doi.org/10.1186/1758-2946-3-32
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