2026-06-06T04:18:04Zhttps://riuma.uma.es/rest/oai/request

oai:riuma.uma.es:10630/142412026-02-03T12:15:45Zcom_10630_2254col_10630_37959

PpNAC1, a main regulator of phenylalanine biosynthesis in p. Pinaster Pascual-Moreno, María Belén Llebrés, María Teresa Cañas-Pendón, Rafael Antonio Cánovas-Ramos, Francisco Miguel Ávila-Sáez, Concepción Biosíntesis Fotosíntesis The metabolism of phenylalanine plays a central role in the channeling of carbon from photosynthesis to the biosynthesis of phenylpropanoids duringwood formation. This crucial pathway is finely regulated primarily at the transcriptional level by MYB and NAC transcription factors. In Arabidopsis, poplar and eucalyptus, the transcriptional network controlling secondary cell wall involves NAC-domain regulators operating upstream Myb transcription factors, but in conifers functional evidence had only been obtained for MYBs. We showed that PpMYB8 is a regulator of phenylpropanoid metabolism and lignin synthesis genes (Craven-Bartle et al. 2013) and three NAC genes PpNAC1, PpNAC30 and PpNAC31 were associated to vascular development in maritime pine (Pascual et al. 2015). Of all of them, PpNAC1 is expressed in the secondary xylem and compression wood of adult trees and phylogenetic analysis classified PpNAC1 as potential candidates to be involved in a transcriptional regulatory network controlling phenylalanine metabolism in maritime pine. This NAC transcription factor has been thoroughly characterized and its role upstream the transcriptional network involving Mybs TFs will be discussed. Understanding the molecular switches controlling wood formation is of paramount importance for fundamental tree biology and has important implications in tree biotechnology. 2017-07-14T11:45:39Z 2017-07-14T11:45:39Z 2017-07-14T11:45:39Z 2017-07-14 conference output http://hdl.handle.net/10630/14241 eng XV spanish-portuguese Congress of Plant Ohysiology Barcelona (Spain) 26 Junio 2017 open access by-nc-nd