Please use this identifier to cite or link to this item: http://repositorio.ufla.br/jspui/handle/1/29144
Title: Estabelecimento de uma rede de correlação de genes diferencialmente expressos nos estresses de Al e P e caracterização das famílias MATE e ALMT em Eucalyptus grandis e Populustrichocarpa
Other Titles: Establishment of a network of differentially expressed genes on the Al and P stress and characterization of the MATE and ALMT families in Eucalyptus grandis e Populustrichocarpa
Authors: Paiva, Luciano Vilela
Andrade, Alan Carvalho
Andrade, Alan Carvalho
Benedito, Vagner Augusto
Keywords: Solos ácidos
Estresse abiótico
Acid soils
Abiotic stress
Issue Date: 4-May-2018
Publisher: Universidade Federal de Lavras
Citation: CARDOSO, T. B. Estabelecimento de uma rede de correlação de genes diferencialmente expressos nos estresses de Al e P e caracterização das famílias MATE e ALMT em Eucalyptus grandis e Populustrichocarpa. 2018. 163 p. Dissertação (Mestrado em Biotecnologia Vegetal)-Universidade Federal de Lavras, Lavras, 2018.
Abstract: Acid soils account for 50% of the world's potentially arable soils. In this type of soil the main problems encountered are the high concentration of Al and the low availability of P. Therefore, this work aimed to contribute with studies in a model plant, Populus spp., and tolerant plants, Eucalyptus spp., related to Al and P stress mechanisms. In the combined stress of Al and P it was observed that the majority of the genes associated to a stress presents negative correlation with that from the other, being only 8 genes influenced by both stresses of similar form. In Populus, 20 members of the ALMT family and 56 members of the MATE family were identified, and of these, 13 and 36 members, respectively, presented a correlation with each other. Of those genes, PoptrALMT10 and PoptrMATE54, the main members related to Al stress, in phosphorus stress did not present any common genes in the leaf and only 3 in the root, in contrast, under Al stress these two genes shared 35 genes. In E. grandis, 58 members of the MATE family were identified, of which 43 were correlated with other members and 15 were involved in more specific routes. In E. urophylla on Al stress, anatomical changes were demonstrated in both root and leaf, and the Eucgr.A02386 gene responded quickly to stress, but at lower intensity while Eucgr.J00768 showed late and more intense expression, both genes encode MATE proteins located in the vacuole.
URI: http://repositorio.ufla.br/jspui/handle/1/29144
Appears in Collections:Biotecnologia Vegetal - Mestrado (Dissertações)



Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.