Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.

Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.

SHORT-ROOT (SHR) is a well characterized regulator of cell division and cell fate determination in the Arabidopsis primary root. However, much less is known about the functions of SHR in the aerial parts of the plant. In this work, we cloned SHR gene from Populus trichocarpa (PtSHR1) as an AtSHR ort...

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Main Authors: Jiehua Wang, Sara Andersson-Gunnerås, Ioana Gaboreanu, Magnus Hertzberg, Matthew R Tucker, Bo Zheng, Joanna Leśniewska, Ewa J Mellerowicz, Thomas Laux, Göran Sandberg, Brian Jones
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3237562?pdf=render
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spelling doaj-3464e093330f44fa82464b10f25371fb2020-11-25T01:42:29ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-01612e2887810.1371/journal.pone.0028878Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.Jiehua WangSara Andersson-GunneråsIoana GaboreanuMagnus HertzbergMatthew R TuckerBo ZhengJoanna LeśniewskaEwa J MellerowiczThomas LauxGöran SandbergBrian JonesSHORT-ROOT (SHR) is a well characterized regulator of cell division and cell fate determination in the Arabidopsis primary root. However, much less is known about the functions of SHR in the aerial parts of the plant. In this work, we cloned SHR gene from Populus trichocarpa (PtSHR1) as an AtSHR ortholog and down-regulated its expression in hybrid poplar (Populus tremula×P. tremuloides Michx-clone T89) in order to determine its physiological functions in shoot development. Sharing a 90% similarity to AtSHR at amino acid level, PtSHR1 was able to complement the Arabidopsis shr mutant. Down regulation of PtSHR1 led to a strong enhancement of primary (height) and secondary (girth) growth rates in the transgenic poplars. A similar approach in Arabidopsis showed a comparable accelerated growth and development phenotype. Our results suggest that the response to SHR could be dose-dependent and that a partial down-regulation of SHR could lead to enhanced meristem activity and a coordinated acceleration of plant growth in woody species. Therefore, SHR functions in plant growth and development as a regulator of cell division and meristem activity not only in the roots but also in the shoots. Reducing SHR expression in transgenic poplar was shown to lead to significant increases in primary and secondary growth rates. Given the current interest in bioenergy crops, SHR has a broader role as a key regulator of whole plant growth and development and SHR suppression has considerable potential for accelerating biomass accumulation in a variety of species.http://europepmc.org/articles/PMC3237562?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Jiehua Wang
Sara Andersson-Gunnerås
Ioana Gaboreanu
Magnus Hertzberg
Matthew R Tucker
Bo Zheng
Joanna Leśniewska
Ewa J Mellerowicz
Thomas Laux
Göran Sandberg
Brian Jones
spellingShingle Jiehua Wang
Sara Andersson-Gunnerås
Ioana Gaboreanu
Magnus Hertzberg
Matthew R Tucker
Bo Zheng
Joanna Leśniewska
Ewa J Mellerowicz
Thomas Laux
Göran Sandberg
Brian Jones
Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.
PLoS ONE
author_facet Jiehua Wang
Sara Andersson-Gunnerås
Ioana Gaboreanu
Magnus Hertzberg
Matthew R Tucker
Bo Zheng
Joanna Leśniewska
Ewa J Mellerowicz
Thomas Laux
Göran Sandberg
Brian Jones
author_sort Jiehua Wang
title Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.
title_short Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.
title_full Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.
title_fullStr Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.
title_full_unstemmed Reduced expression of the SHORT-ROOT gene increases the rates of growth and development in hybrid poplar and Arabidopsis.
title_sort reduced expression of the short-root gene increases the rates of growth and development in hybrid poplar and arabidopsis.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description SHORT-ROOT (SHR) is a well characterized regulator of cell division and cell fate determination in the Arabidopsis primary root. However, much less is known about the functions of SHR in the aerial parts of the plant. In this work, we cloned SHR gene from Populus trichocarpa (PtSHR1) as an AtSHR ortholog and down-regulated its expression in hybrid poplar (Populus tremula×P. tremuloides Michx-clone T89) in order to determine its physiological functions in shoot development. Sharing a 90% similarity to AtSHR at amino acid level, PtSHR1 was able to complement the Arabidopsis shr mutant. Down regulation of PtSHR1 led to a strong enhancement of primary (height) and secondary (girth) growth rates in the transgenic poplars. A similar approach in Arabidopsis showed a comparable accelerated growth and development phenotype. Our results suggest that the response to SHR could be dose-dependent and that a partial down-regulation of SHR could lead to enhanced meristem activity and a coordinated acceleration of plant growth in woody species. Therefore, SHR functions in plant growth and development as a regulator of cell division and meristem activity not only in the roots but also in the shoots. Reducing SHR expression in transgenic poplar was shown to lead to significant increases in primary and secondary growth rates. Given the current interest in bioenergy crops, SHR has a broader role as a key regulator of whole plant growth and development and SHR suppression has considerable potential for accelerating biomass accumulation in a variety of species.
url http://europepmc.org/articles/PMC3237562?pdf=render
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