AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance

Crop plants are regularly challenged by a range of environmental stresses which typically retard their growth and ultimately compromise economic yield. The stress response involves the reprogramming of approximately 4% of the transcriptome. Here, the behavior of AtRD22 and AtUSPL1, both members of t...

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Autores principales: Harshavardhan, Vokkaliga Thammegowda, Van Son, Le, Seiler, Christiane, Junker, Astrid, Weigelt-Fischer, Kathleen, Klukas, Christian, Altmann, Thomas, Sreenivasulu, Nese, Bäumlein, Helmut, Kuhlmann, Markus
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4198191/
https://www.ncbi.nlm.nih.gov/pubmed/25333723
http://dx.doi.org/10.1371/journal.pone.0110065
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author Harshavardhan, Vokkaliga Thammegowda
Van Son, Le
Seiler, Christiane
Junker, Astrid
Weigelt-Fischer, Kathleen
Klukas, Christian
Altmann, Thomas
Sreenivasulu, Nese
Bäumlein, Helmut
Kuhlmann, Markus
author_facet Harshavardhan, Vokkaliga Thammegowda
Van Son, Le
Seiler, Christiane
Junker, Astrid
Weigelt-Fischer, Kathleen
Klukas, Christian
Altmann, Thomas
Sreenivasulu, Nese
Bäumlein, Helmut
Kuhlmann, Markus
author_sort Harshavardhan, Vokkaliga Thammegowda
collection PubMed
description Crop plants are regularly challenged by a range of environmental stresses which typically retard their growth and ultimately compromise economic yield. The stress response involves the reprogramming of approximately 4% of the transcriptome. Here, the behavior of AtRD22 and AtUSPL1, both members of the Arabidopsis thaliana BURP (BNM2, USP, RD22 and polygalacturonase isozyme) domain-containing gene family, has been characterized. Both genes are up-regulated as part of the abscisic acid (ABA) mediated moisture stress response. While AtRD22 transcript was largely restricted to the leaf, that of AtUSPL1 was more prevalent in the root. As the loss of function of either gene increased the plant's moisture stress tolerance, the implication was that their products act to suppress the drought stress response. In addition to the known involvement of AtUSPL1 in seed development, a further role in stress tolerance was demonstrated. Based on transcriptomic data and phenotype we concluded that the enhanced moisture stress tolerance of the two loss-of-function mutants is a consequence of an enhanced basal defense response.
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spelling pubmed-41981912014-10-21 AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance Harshavardhan, Vokkaliga Thammegowda Van Son, Le Seiler, Christiane Junker, Astrid Weigelt-Fischer, Kathleen Klukas, Christian Altmann, Thomas Sreenivasulu, Nese Bäumlein, Helmut Kuhlmann, Markus PLoS One Research Article Crop plants are regularly challenged by a range of environmental stresses which typically retard their growth and ultimately compromise economic yield. The stress response involves the reprogramming of approximately 4% of the transcriptome. Here, the behavior of AtRD22 and AtUSPL1, both members of the Arabidopsis thaliana BURP (BNM2, USP, RD22 and polygalacturonase isozyme) domain-containing gene family, has been characterized. Both genes are up-regulated as part of the abscisic acid (ABA) mediated moisture stress response. While AtRD22 transcript was largely restricted to the leaf, that of AtUSPL1 was more prevalent in the root. As the loss of function of either gene increased the plant's moisture stress tolerance, the implication was that their products act to suppress the drought stress response. In addition to the known involvement of AtUSPL1 in seed development, a further role in stress tolerance was demonstrated. Based on transcriptomic data and phenotype we concluded that the enhanced moisture stress tolerance of the two loss-of-function mutants is a consequence of an enhanced basal defense response. Public Library of Science 2014-10-15 /pmc/articles/PMC4198191/ /pubmed/25333723 http://dx.doi.org/10.1371/journal.pone.0110065 Text en © 2014 Harshavardhan et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Harshavardhan, Vokkaliga Thammegowda
Van Son, Le
Seiler, Christiane
Junker, Astrid
Weigelt-Fischer, Kathleen
Klukas, Christian
Altmann, Thomas
Sreenivasulu, Nese
Bäumlein, Helmut
Kuhlmann, Markus
AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance
title AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance
title_full AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance
title_fullStr AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance
title_full_unstemmed AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance
title_short AtRD22 and AtUSPL1, Members of the Plant-Specific BURP Domain Family Involved in Arabidopsis thaliana Drought Tolerance
title_sort atrd22 and atuspl1, members of the plant-specific burp domain family involved in arabidopsis thaliana drought tolerance
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4198191/
https://www.ncbi.nlm.nih.gov/pubmed/25333723
http://dx.doi.org/10.1371/journal.pone.0110065
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