The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots

BACKGROUND: Adventitious rooting is an organogenic process by which roots are induced from differentiated cells other than those specified to develop roots. In forest tree species, age and maturation are barriers to adventitious root formation by stem cuttings. The mechanisms behind the respecificat...

Descripción completa

Detalles Bibliográficos
Autores principales: Abarca, Dolores, Pizarro, Alberto, Hernández, Inmaculada, Sánchez, Conchi, Solana, Silvia P, del Amo, Alicia, Carneros, Elena, Díaz-Sala, Carmen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4302573/
https://www.ncbi.nlm.nih.gov/pubmed/25547982
http://dx.doi.org/10.1186/s12870-014-0354-8
_version_ 1782353827183198208
author Abarca, Dolores
Pizarro, Alberto
Hernández, Inmaculada
Sánchez, Conchi
Solana, Silvia P
del Amo, Alicia
Carneros, Elena
Díaz-Sala, Carmen
author_facet Abarca, Dolores
Pizarro, Alberto
Hernández, Inmaculada
Sánchez, Conchi
Solana, Silvia P
del Amo, Alicia
Carneros, Elena
Díaz-Sala, Carmen
author_sort Abarca, Dolores
collection PubMed
description BACKGROUND: Adventitious rooting is an organogenic process by which roots are induced from differentiated cells other than those specified to develop roots. In forest tree species, age and maturation are barriers to adventitious root formation by stem cuttings. The mechanisms behind the respecification of fully differentiated progenitor cells, which underlies adventitious root formation, are unknown. RESULTS: Here, the GRAS gene family in pine is characterized and the expression of a subset of these genes during adventitious rooting is reported. Comparative analyses of protein structures showed that pine GRAS members are conserved compared with their relatives in angiosperms. Relatively high GRAS mRNA levels were measured in non-differentiated proliferating embryogenic cultures and during embryo development. The mRNA levels of putative GRAS family transcription factors, including Pinus radiata’s SCARECROW (SCR), PrSCR, and SCARECROW-LIKE (SCL) 6, PrSCL6, were significantly reduced or non-existent in adult tissues that no longer had the capacity to form adventitious roots, but were maintained or induced after the reprogramming of adult cells in rooting-competent tissues. A subset of genes, SHORT-ROOT (PrSHR), PrSCL1, PrSCL2, PrSCL10 and PrSCL12, was also expressed in an auxin-, age- or developmental-dependent manner during adventitious root formation. CONCLUSIONS: The GRAS family of pine has been characterized by analyzing protein structures, phylogenetic relationships, conserved motifs and gene expression patterns. Individual genes within each group have acquired different and specialized functions, some of which could be related to the competence and reprogramming of adult cells to form adventitious roots. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12870-014-0354-8) contains supplementary material, which is available to authorized users.
format Online
Article
Text
id pubmed-4302573
institution National Center for Biotechnology Information
language English
publishDate 2014
publisher BioMed Central
record_format MEDLINE/PubMed
spelling pubmed-43025732015-01-23 The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots Abarca, Dolores Pizarro, Alberto Hernández, Inmaculada Sánchez, Conchi Solana, Silvia P del Amo, Alicia Carneros, Elena Díaz-Sala, Carmen BMC Plant Biol Research Article BACKGROUND: Adventitious rooting is an organogenic process by which roots are induced from differentiated cells other than those specified to develop roots. In forest tree species, age and maturation are barriers to adventitious root formation by stem cuttings. The mechanisms behind the respecification of fully differentiated progenitor cells, which underlies adventitious root formation, are unknown. RESULTS: Here, the GRAS gene family in pine is characterized and the expression of a subset of these genes during adventitious rooting is reported. Comparative analyses of protein structures showed that pine GRAS members are conserved compared with their relatives in angiosperms. Relatively high GRAS mRNA levels were measured in non-differentiated proliferating embryogenic cultures and during embryo development. The mRNA levels of putative GRAS family transcription factors, including Pinus radiata’s SCARECROW (SCR), PrSCR, and SCARECROW-LIKE (SCL) 6, PrSCL6, were significantly reduced or non-existent in adult tissues that no longer had the capacity to form adventitious roots, but were maintained or induced after the reprogramming of adult cells in rooting-competent tissues. A subset of genes, SHORT-ROOT (PrSHR), PrSCL1, PrSCL2, PrSCL10 and PrSCL12, was also expressed in an auxin-, age- or developmental-dependent manner during adventitious root formation. CONCLUSIONS: The GRAS family of pine has been characterized by analyzing protein structures, phylogenetic relationships, conserved motifs and gene expression patterns. Individual genes within each group have acquired different and specialized functions, some of which could be related to the competence and reprogramming of adult cells to form adventitious roots. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12870-014-0354-8) contains supplementary material, which is available to authorized users. BioMed Central 2014-12-30 /pmc/articles/PMC4302573/ /pubmed/25547982 http://dx.doi.org/10.1186/s12870-014-0354-8 Text en © Abarca et al.; licensee BioMed Central. 2014 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research Article
Abarca, Dolores
Pizarro, Alberto
Hernández, Inmaculada
Sánchez, Conchi
Solana, Silvia P
del Amo, Alicia
Carneros, Elena
Díaz-Sala, Carmen
The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots
title The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots
title_full The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots
title_fullStr The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots
title_full_unstemmed The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots
title_short The GRAS gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots
title_sort gras gene family in pine: transcript expression patterns associated with the maturation-related decline of competence to form adventitious roots
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4302573/
https://www.ncbi.nlm.nih.gov/pubmed/25547982
http://dx.doi.org/10.1186/s12870-014-0354-8
work_keys_str_mv AT abarcadolores thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT pizarroalberto thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT hernandezinmaculada thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT sanchezconchi thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT solanasilviap thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT delamoalicia thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT carneroselena thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT diazsalacarmen thegrasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT abarcadolores grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT pizarroalberto grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT hernandezinmaculada grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT sanchezconchi grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT solanasilviap grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT delamoalicia grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT carneroselena grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots
AT diazsalacarmen grasgenefamilyinpinetranscriptexpressionpatternsassociatedwiththematurationrelateddeclineofcompetencetoformadventitiousroots

Ejemplares similares