Using Consensus-Shape Clustering To Identify Promiscuous Ligands and Protein Targets and To Choose the Right Query for Shape-Based Virtual Screening
Identifieur interne : 001E19 ( Hal/Checkpoint ); précédent : 001E18; suivant : 001E20Using Consensus-Shape Clustering To Identify Promiscuous Ligands and Protein Targets and To Choose the Right Query for Shape-Based Virtual Screening
Auteurs : Violeta Pérez-Nueno [France] ; David Ritchie [France]Source :
- Journal of Chemical Information and Modeling [ 1549-9596 ] ; 2011-05-23.
English descriptors
Abstract
Ligand-based shape matching approaches have become established as important and popular virtual screening (VS) techniques. However, despite their relative success, many authors have discussed how best to choose the initial query compounds and which of their conformations should be used. Furthermore, it is increasingly the case that pharmaceutical companies have multiple ligands for a given target and these may bind in different ways to the same pocket. Conversely, a given ligand can sometimes bind to multiple targets, and this is clearly of great importance when considering drug side-effects. We recently introduced the notion of spherical harmonic-based "consensus shapes" to help deal with these questions. Here, we apply a consensus shape clustering approach to the 40 protein-ligand targets in the DUD data set using PARASURF/PARAFIT. Results from clustering show that in some cases the ligands for a given target are split into two subgroups which could suggest they bind to different subsites of the same target. In other cases, our clustering approach sometimes groups together ligands from different targets, and this suggests that those ligands could bind to the same targets. Hence spherical harmonic-based clustering can rapidly give cross-docking information while avoiding the expense of performing all-against-all docking calculations. We also report on the effect of the query conformation on the performance of shape-based screening of the DUD data set and the potential gain in screening performance by using consensus shapes calculated in different ways. We provide details of our analysis of shape-based screening using both PARASURF/PARAFIT and ROCS, and we compare the results obtained with shape-based and conventional docking approaches using MSSH/SHEF and GOLD. The utility of each type of query is analyzed using commonly reported statistics such as enrichment factors (EF) and receiver-operator-characteristic (ROC) plots as well as other early performance metrics.
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DOI: 10.1021/ci100492r
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type="url">http://www.inria.fr/centre-de-recherche-inria/nancy-grand-est</ref></desc><listRelation><relation active="#struct-300009" type="direct"></relation></listRelation></org></tutelle></tutelles></hal:affiliation><country>France</country><placeName><settlement type="city">Nancy</settlement><region type="region" nuts="2">Grand Est</region><region type="old region" nuts="2">Lorraine (région)</region></placeName><orgName type="university">Université Nancy 2</orgName><orgName type="institution" wicri:auto="newGroup">Université de Lorraine</orgName><placeName><settlement type="city">Nancy</settlement><region type="region" nuts="2">Grand Est</region><region type="old region" nuts="2">Lorraine (région)</region></placeName><orgName type="university">Institut national polytechnique de Lorraine</orgName><orgName type="institution" wicri:auto="newGroup">Université de Lorraine</orgName></affiliation></author></analytic><idno type="DOI">10.1021/ci100492r</idno><series><title level="j">Journal of Chemical Information and Modeling</title><idno type="ISSN">1549-9596</idno><imprint><date type="datePub">2011-05-23</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass><keywords scheme="mix" xml:lang="en"><term>spherical harmonics</term><term>virtual drug screening</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Ligand-based shape matching approaches have become established as important and popular virtual screening (VS) techniques. However, despite their relative success, many authors have discussed how best to choose the initial query compounds and which of their conformations should be used. Furthermore, it is increasingly the case that pharmaceutical companies have multiple ligands for a given target and these may bind in different ways to the same pocket. Conversely, a given ligand can sometimes bind to multiple targets, and this is clearly of great importance when considering drug side-effects. We recently introduced the notion of spherical harmonic-based "consensus shapes" to help deal with these questions. Here, we apply a consensus shape clustering approach to the 40 protein-ligand targets in the DUD data set using PARASURF/PARAFIT. Results from clustering show that in some cases the ligands for a given target are split into two subgroups which could suggest they bind to different subsites of the same target. In other cases, our clustering approach sometimes groups together ligands from different targets, and this suggests that those ligands could bind to the same targets. Hence spherical harmonic-based clustering can rapidly give cross-docking information while avoiding the expense of performing all-against-all docking calculations. We also report on the effect of the query conformation on the performance of shape-based screening of the DUD data set and the potential gain in screening performance by using consensus shapes calculated in different ways. We provide details of our analysis of shape-based screening using both PARASURF/PARAFIT and ROCS, and we compare the results obtained with shape-based and conventional docking approaches using MSSH/SHEF and GOLD. The utility of each type of query is analyzed using commonly reported statistics such as enrichment factors (EF) and receiver-operator-characteristic (ROC) plots as well as other early performance metrics.</div></front></TEI><hal api="V3"><titleStmt><title xml:lang="en">Using Consensus-Shape Clustering To Identify Promiscuous Ligands and Protein Targets and To Choose the Right Query for Shape-Based Virtual Screening</title><author role="aut"><persName><forename type="first">Violeta</forename><forename type="middle">I.</forename><surname>Pérez-Nueno</surname></persName><email></email><idno type="halauthor">560569</idno><orgName ref="#struct-300009"></orgName><affiliation ref="#struct-2358"></affiliation></author><author role="aut"><persName><forename type="first">David</forename><surname>Ritchie</surname></persName><email>Dave.Ritchie@inria.fr</email><idno type="idhal">david-ritchie</idno><idno type="halauthor">560570</idno><affiliation ref="#struct-2358"></affiliation></author><editor role="depositor"><persName><forename>David</forename><surname>Ritchie</surname></persName><email>Dave.Ritchie@inria.fr</email></editor><funder ref="#projeurop-90096"></funder></titleStmt><editionStmt><edition n="v1" type="current"><date type="whenSubmitted">2011-08-31 06:38:57</date><date type="whenModified">2016-05-18 08:56:02</date><date type="whenReleased">2011-08-31 06:38:57</date><date type="whenProduced">2011-05-23</date></edition><respStmt><resp>contributor</resp><name key="145516"><persName><forename>David</forename><surname>Ritchie</surname></persName><email>Dave.Ritchie@inria.fr</email></name></respStmt></editionStmt><publicationStmt><distributor>CCSD</distributor><idno type="halId">inria-00617922</idno><idno type="halUri">https://hal.inria.fr/inria-00617922</idno><idno type="halBibtex">pereznueno:inria-00617922</idno><idno type="halRefHtml">Journal of Chemical Information and Modeling, American Chemical Society, 2011, 51 (6), pp.1233-1248. <10.1021/ci100492r></idno><idno type="halRef">Journal of Chemical Information and Modeling, American Chemical Society, 2011, 51 (6), pp.1233-1248. <10.1021/ci100492r></idno></publicationStmt><seriesStmt><idno type="stamp" n="CNRS">CNRS - Centre national de la recherche scientifique</idno><idno type="stamp" n="INRIA">INRIA - Institut National de Recherche en Informatique et en Automatique</idno><idno type="stamp" n="INPL">Institut National Polytechnique de Lorraine</idno><idno type="stamp" n="LORIA2">Publications du LORIA</idno><idno type="stamp" n="INRIA-NANCY-GRAND-EST">INRIA Nancy - Grand Est</idno><idno type="stamp" n="LORIA">LORIA - Laboratoire Lorrain de Recherche en Informatique et ses Applications</idno><idno type="stamp" n="LORIA-TALC" p="LORIA">Traitement automatique des langues et des connaissances</idno><idno type="stamp" n="OPENAIRE">OpenAIRE</idno><idno type="stamp" n="INRIA-LORRAINE">INRIA Nancy - Grand Est</idno><idno type="stamp" n="LABO-LORIA-SET" p="LORIA">LABO-LORIA-SET</idno><idno type="stamp" n="INRIA2">INRIA 2</idno><idno type="stamp" n="UNIV-LORRAINE">Université de Lorraine</idno></seriesStmt><notesStmt><note type="audience" n="2">International</note><note type="popular" n="0">No</note><note type="peer" n="1">Yes</note></notesStmt><sourceDesc><biblStruct><analytic><title xml:lang="en">Using Consensus-Shape Clustering To Identify Promiscuous Ligands and Protein Targets and To Choose the Right Query for Shape-Based Virtual Screening</title><author role="aut"><persName><forename type="first">Violeta</forename><forename type="middle">I.</forename><surname>Pérez-Nueno</surname></persName><idno type="halAuthorId">560569</idno><orgName ref="#struct-300009"></orgName><affiliation ref="#struct-2358"></affiliation></author><author role="aut"><persName><forename type="first">David</forename><surname>Ritchie</surname></persName><email>Dave.Ritchie@inria.fr</email><idno type="idHal">david-ritchie</idno><idno type="halAuthorId">560570</idno><affiliation ref="#struct-2358"></affiliation></author></analytic><monogr><idno type="halJournalId" status="VALID">21974</idno><idno type="issn">1549-9596</idno><idno type="eissn">1549-960X</idno><title level="j">Journal of Chemical Information and Modeling</title><imprint><publisher>American Chemical Society</publisher><biblScope unit="volume">51</biblScope><biblScope unit="issue">6</biblScope><biblScope unit="pp">1233-1248</biblScope><date type="datePub">2011-05-23</date></imprint></monogr><idno type="doi">10.1021/ci100492r</idno></biblStruct></sourceDesc><profileDesc><langUsage><language ident="en">English</language></langUsage><textClass><keywords scheme="author"><term xml:lang="en">virtual drug screening</term><term xml:lang="en">spherical harmonics</term></keywords><classCode scheme="halDomain" n="info.info-bi">Computer Science [cs]/Bioinformatics [q-bio.QM]</classCode><classCode scheme="halDomain" n="sdv.bibs">Life Sciences [q-bio]/Quantitative Methods [q-bio.QM]</classCode><classCode scheme="halTypology" n="ART">Journal articles</classCode></textClass><abstract xml:lang="en">Ligand-based shape matching approaches have become established as important and popular virtual screening (VS) techniques. However, despite their relative success, many authors have discussed how best to choose the initial query compounds and which of their conformations should be used. Furthermore, it is increasingly the case that pharmaceutical companies have multiple ligands for a given target and these may bind in different ways to the same pocket. Conversely, a given ligand can sometimes bind to multiple targets, and this is clearly of great importance when considering drug side-effects. We recently introduced the notion of spherical harmonic-based "consensus shapes" to help deal with these questions. Here, we apply a consensus shape clustering approach to the 40 protein-ligand targets in the DUD data set using PARASURF/PARAFIT. Results from clustering show that in some cases the ligands for a given target are split into two subgroups which could suggest they bind to different subsites of the same target. In other cases, our clustering approach sometimes groups together ligands from different targets, and this suggests that those ligands could bind to the same targets. Hence spherical harmonic-based clustering can rapidly give cross-docking information while avoiding the expense of performing all-against-all docking calculations. We also report on the effect of the query conformation on the performance of shape-based screening of the DUD data set and the potential gain in screening performance by using consensus shapes calculated in different ways. We provide details of our analysis of shape-based screening using both PARASURF/PARAFIT and ROCS, and we compare the results obtained with shape-based and conventional docking approaches using MSSH/SHEF and GOLD. The utility of each type of query is analyzed using commonly reported statistics such as enrichment factors (EF) and receiver-operator-characteristic (ROC) plots as well as other early performance metrics.</abstract></profileDesc></hal></record>Pour manipuler ce document sous Unix (Dilib)
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