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dc.contributor.authorFernández i Martí, Angel V.es_ES
dc.contributor.authorWirthensohn, Michellees_ES
dc.contributor.authorAlonso Segura, José Manueles_ES
dc.contributor.authorSocias i Company, Rafeles_ES
dc.contributor.authorHrmova, Maríaes_ES
dc.date.accessioned2013-02-06T09:51:04Z
dc.date.available2013-02-06T09:51:04Z
dc.date.issued2011es_ES
dc.identifier.citationFernández i Martí, A.; Wirthensohn, M.; Alonso, J.M.; Socias i Company, R.; Hrmova, M. 2011. Molecular modeling of RNases from almond involved in serlf-incompatibility. V International Symposium on Pistachios and Almonds. Sanliurfa (Turkey), October 13-17, 2009.ISHS Acta Horticulturae 912:641-643.
dc.identifier.issn0567-7572*
dc.identifier.urihttp://hdl.handle.net/10532/2111
dc.description.abstractGametophytic self-incompatibility (GSI) is a natural mechanism in flowering plants, including almond and other fruit tree species, to prevent inbreeding and promote outcrossing. It is typically under the control of a specific locus, known as the S-locus, which contains at least two genes. The first gene encodes glycoproteins with ribonuclease (S-RNase) activity in the pistils, and the second is a specific F-box gene (SFB) expressed in the pollen. In Solanaceae, Scrophulariaceae and Rosaceae, active S-RNases in the style are essential for rejection of haploid pollen, when the S-allele of pollen matches one of two S-alleles of the diploid pistil. The S-RNase was first identified in Prunus more than 20 years ago, whereas SFB was identified only recently. In spite of the knowledge of the genetic structure of the female and male determinants of GSI, the nature of their mutual interactions at genetic and biochemical levels remain unclear. Thus, detailed understanding of the protein structure involved in GSI may help in discovering how proteins involved in GSI function and fulfil their biological roles. To this aim, three-dimensional (3D) models of a self-compatible (Sf) and a self-incompatible (S8) S-RNase of almond have been constructed, using comparative modelling tools. The molecular models of Sf and S8 showed that 3D architectures of their folds had the same topology as typical members of the RNase T2 family. The modelled structures consisted of mixed α and β folds, with six helices and six beta-strands.en
dc.language.isoenes_ES
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/3.0/es/*
dc.subject.otherfruticulturaes_ES
dc.titleMolecular modeling of RNases from almond involved in serlf-incompatibilityen
dc.typearticle*
dc.description.versionPeer Reviewed
dc.bibliographicCitation.volume912es_ES
dc.bibliographicCitation.stpage641es_ES
dc.bibliographicCitation.endpage643es_ES
dc.subject.agrovocPrunus dulcises
dc.subject.agrovocAutocompatibilidades
dc.subject.agrovocIncompatibilidad del polenen
dc.description.otheralmonden
dc.description.otherself-(in) compatibilityen
dc.description.other3D modellingen
dc.description.otherRNase T2en
dc.description.statusPublishedes_ES
dc.type.refereedNon-Refereedes_ES
dc.type.specifiedArticlees_ES
dc.bibliographicCitation.titleActa Horticulturaeen
dc.relation.datahttp://www.actahort.org/books/912/912_96.htmes_ES
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