Physiologic responses and gene diversity indicate olive alternative oxidase as a potential source for markers involved in efficient adventitious root induction

dc.contributor.authorSantos Macedo, Elisete
dc.contributor.authorCardoso, Hélia
dc.contributor.authorHernández, Alejandro
dc.contributor.authorPeixe, Augusto A.
dc.contributor.authorPolidoros, Alexios
dc.contributor.authorFerreira, Alexandre
dc.contributor.authorCordeiro, António
dc.contributor.authorArnholdt-Schmitt, Birgit
dc.date.accessioned2011-08-17T11:14:24Z
dc.date.available2011-08-17T11:14:24Z
dc.date.issued2009-10-06
dc.description.abstractOlive (Olea europaea L.) trees are mainly propagated by adventitious rooting of semi-hardwood cuttings.However, efficient commercial propagation of valuable olive tree cultivars or landraces by semi-hardwood cuttings can often be restricted by a low rooting capacity. We hypothesize that root induction is a plant cell reaction linked to oxidative stress and that activity of stress-induced alternative oxidase (AOX) is importantly involved in adventitious rooting. To identify AOX as a source for potential functional marker sequences that may assist tree breeding, genetic variability has to be demonstrated that can affect gene regulation. The paper presents an applied, multidisciplinary research approach demonstrating first indications of an important relationship between AOX activity and differential adventitious rooting in semi-hardwood cuttings. Root induction in the easy-to-root Portuguese cultivar 'Cobrançosa' could be significantly reduced by treatment with salicyl-hydroxamic acid, an inhibitor of AOX activity. On the contrary, treatment with H2O2 or pyruvate, both known to induce AOX activity, increased the degree of rooting. Recently, identification of several O. europaea (Oe) AOX gene sequences has been reported from our group. Here we present for the first time partial sequences of OeAOX2. To search for polymorphisms inside of OeAOX genes, partial OeAOX2 sequences from the cultivars 'Galega vulgar', 'Cobrançosa' and 'Picual' were cloned from genomic DNA and cDNA, including exon, intron and 3'-untranslated regions (3'-UTRs) sequences. The data revealed polymorphic sites in several regions of OeAOX2. The 3'-UTR was the most important source for polymorphisms showing 5.7% of variability. Variability in the exon region accounted 3.4 and 2% in the intron. Further, analysis performed at the cDNA from microshoots of 'Galega vulgar' revealed transcript length variation for the 3'-UTR of OeAOX2 ranging between 76 and 301 bp. The identified polymorphisms and 3'-UTR length variation can be explored in future studies for effects on gene regulation and a potential linkage to olive rooting phenotypes in view of marker-assisted plant selection.en
dc.format.extent10043 bytes
dc.format.mimetypeapplication/pdf
dc.identifier.accesstyperestrito_ueen
dc.identifier.authoremailnd
dc.identifier.authoremailhcardoso@uevora.pt
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dc.identifier.authoremaileu_chair@uevora.pt
dc.identifier.issn0031-9317 (print) 1399-3054 (online)en
dc.identifier.numrev4en
dc.identifier.pagina532 - 552en
dc.identifier.revistaPhysiologia Plantarumen
dc.identifier.scientificarea577en
dc.identifier.urihttp://hdl.handle.net/10174/2728
dc.identifier.volume137en
dc.language.isoporen
dc.peerreviewedyesen
dc.publisherWileyen
dc.rightsopenAccessen
dc.titlePhysiologic responses and gene diversity indicate olive alternative oxidase as a potential source for markers involved in efficient adventitious root inductionen
dc.typearticleen

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