Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking

ATHB17 (AT2G01430) is an Arabidopsis gene encoding a member of the α-subclass of the homeodomain leucine zipper class II (HD-Zip II) family of transcription factors. The ATHB17 monomer contains four domains common to all class II HD-Zip proteins: a putative repression domain adjacent to a homeodomai...

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Autores principales: Rice, Elena A., Khandelwal, Abha, Creelman, Robert A., Griffith, Cara, Ahrens, Jeffrey E., Taylor, J. Philip, Murphy, Lesley R., Manjunath, Siva, Thompson, Rebecca L., Lingard, Matthew J., Back, Stephanie L., Larue, Huachun, Brayton, Bonnie R., Burek, Amanda J., Tiwari, Shiv, Adam, Luc, Morrell, James A., Caldo, Rico A., Huai, Qing, Kouadio, Jean-Louis K., Kuehn, Rosemarie, Sant, Anagha M., Wingbermuehle, William J., Sala, Rodrigo, Foster, Matt, Kinser, Josh D., Mohanty, Radha, Jiang, Dongming, Ziegler, Todd E., Huang, Mingya G., Kuriakose, Saritha V., Skottke, Kyle, Repetti, Peter P., Reuber, T. Lynne, Ruff, Thomas G., Petracek, Marie E., Loida, Paul J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3988052/
https://www.ncbi.nlm.nih.gov/pubmed/24736658
http://dx.doi.org/10.1371/journal.pone.0094238
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author Rice, Elena A.
Khandelwal, Abha
Creelman, Robert A.
Griffith, Cara
Ahrens, Jeffrey E.
Taylor, J. Philip
Murphy, Lesley R.
Manjunath, Siva
Thompson, Rebecca L.
Lingard, Matthew J.
Back, Stephanie L.
Larue, Huachun
Brayton, Bonnie R.
Burek, Amanda J.
Tiwari, Shiv
Adam, Luc
Morrell, James A.
Caldo, Rico A.
Huai, Qing
Kouadio, Jean-Louis K.
Kuehn, Rosemarie
Sant, Anagha M.
Wingbermuehle, William J.
Sala, Rodrigo
Foster, Matt
Kinser, Josh D.
Mohanty, Radha
Jiang, Dongming
Ziegler, Todd E.
Huang, Mingya G.
Kuriakose, Saritha V.
Skottke, Kyle
Repetti, Peter P.
Reuber, T. Lynne
Ruff, Thomas G.
Petracek, Marie E.
Loida, Paul J.
author_facet Rice, Elena A.
Khandelwal, Abha
Creelman, Robert A.
Griffith, Cara
Ahrens, Jeffrey E.
Taylor, J. Philip
Murphy, Lesley R.
Manjunath, Siva
Thompson, Rebecca L.
Lingard, Matthew J.
Back, Stephanie L.
Larue, Huachun
Brayton, Bonnie R.
Burek, Amanda J.
Tiwari, Shiv
Adam, Luc
Morrell, James A.
Caldo, Rico A.
Huai, Qing
Kouadio, Jean-Louis K.
Kuehn, Rosemarie
Sant, Anagha M.
Wingbermuehle, William J.
Sala, Rodrigo
Foster, Matt
Kinser, Josh D.
Mohanty, Radha
Jiang, Dongming
Ziegler, Todd E.
Huang, Mingya G.
Kuriakose, Saritha V.
Skottke, Kyle
Repetti, Peter P.
Reuber, T. Lynne
Ruff, Thomas G.
Petracek, Marie E.
Loida, Paul J.
author_sort Rice, Elena A.
collection PubMed
description ATHB17 (AT2G01430) is an Arabidopsis gene encoding a member of the α-subclass of the homeodomain leucine zipper class II (HD-Zip II) family of transcription factors. The ATHB17 monomer contains four domains common to all class II HD-Zip proteins: a putative repression domain adjacent to a homeodomain, leucine zipper, and carboxy terminal domain. However, it also possesses a unique N-terminus not present in other members of the family. In this study we demonstrate that the unique 73 amino acid N-terminus is involved in regulation of cellular localization of ATHB17. The ATHB17 protein is shown to function as a transcriptional repressor and an EAR-like motif is identified within the putative repression domain of ATHB17. Transformation of maize with an ATHB17 expression construct leads to the expression of ATHB17Δ113, a truncated protein lacking the first 113 amino acids which encodes a significant portion of the repression domain. Because ATHB17Δ113 lacks the repression domain, the protein cannot directly affect the transcription of its target genes. ATHB17Δ113 can homodimerize, form heterodimers with maize endogenous HD-Zip II proteins, and bind to target DNA sequences; thus, ATHB17Δ113 may interfere with HD-Zip II mediated transcriptional activity via a dominant negative mechanism. We provide evidence that maize HD-Zip II proteins function as transcriptional repressors and that ATHB17Δ113 relieves this HD-Zip II mediated transcriptional repression activity. Expression of ATHB17Δ113 in maize leads to increased ear size at silking and, therefore, may enhance sink potential. We hypothesize that this phenotype could be a result of modulation of endogenous HD-Zip II pathways in maize.
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spelling pubmed-39880522014-04-21 Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking Rice, Elena A. Khandelwal, Abha Creelman, Robert A. Griffith, Cara Ahrens, Jeffrey E. Taylor, J. Philip Murphy, Lesley R. Manjunath, Siva Thompson, Rebecca L. Lingard, Matthew J. Back, Stephanie L. Larue, Huachun Brayton, Bonnie R. Burek, Amanda J. Tiwari, Shiv Adam, Luc Morrell, James A. Caldo, Rico A. Huai, Qing Kouadio, Jean-Louis K. Kuehn, Rosemarie Sant, Anagha M. Wingbermuehle, William J. Sala, Rodrigo Foster, Matt Kinser, Josh D. Mohanty, Radha Jiang, Dongming Ziegler, Todd E. Huang, Mingya G. Kuriakose, Saritha V. Skottke, Kyle Repetti, Peter P. Reuber, T. Lynne Ruff, Thomas G. Petracek, Marie E. Loida, Paul J. PLoS One Research Article ATHB17 (AT2G01430) is an Arabidopsis gene encoding a member of the α-subclass of the homeodomain leucine zipper class II (HD-Zip II) family of transcription factors. The ATHB17 monomer contains four domains common to all class II HD-Zip proteins: a putative repression domain adjacent to a homeodomain, leucine zipper, and carboxy terminal domain. However, it also possesses a unique N-terminus not present in other members of the family. In this study we demonstrate that the unique 73 amino acid N-terminus is involved in regulation of cellular localization of ATHB17. The ATHB17 protein is shown to function as a transcriptional repressor and an EAR-like motif is identified within the putative repression domain of ATHB17. Transformation of maize with an ATHB17 expression construct leads to the expression of ATHB17Δ113, a truncated protein lacking the first 113 amino acids which encodes a significant portion of the repression domain. Because ATHB17Δ113 lacks the repression domain, the protein cannot directly affect the transcription of its target genes. ATHB17Δ113 can homodimerize, form heterodimers with maize endogenous HD-Zip II proteins, and bind to target DNA sequences; thus, ATHB17Δ113 may interfere with HD-Zip II mediated transcriptional activity via a dominant negative mechanism. We provide evidence that maize HD-Zip II proteins function as transcriptional repressors and that ATHB17Δ113 relieves this HD-Zip II mediated transcriptional repression activity. Expression of ATHB17Δ113 in maize leads to increased ear size at silking and, therefore, may enhance sink potential. We hypothesize that this phenotype could be a result of modulation of endogenous HD-Zip II pathways in maize. Public Library of Science 2014-04-15 /pmc/articles/PMC3988052/ /pubmed/24736658 http://dx.doi.org/10.1371/journal.pone.0094238 Text en © 2014 Rice 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
Rice, Elena A.
Khandelwal, Abha
Creelman, Robert A.
Griffith, Cara
Ahrens, Jeffrey E.
Taylor, J. Philip
Murphy, Lesley R.
Manjunath, Siva
Thompson, Rebecca L.
Lingard, Matthew J.
Back, Stephanie L.
Larue, Huachun
Brayton, Bonnie R.
Burek, Amanda J.
Tiwari, Shiv
Adam, Luc
Morrell, James A.
Caldo, Rico A.
Huai, Qing
Kouadio, Jean-Louis K.
Kuehn, Rosemarie
Sant, Anagha M.
Wingbermuehle, William J.
Sala, Rodrigo
Foster, Matt
Kinser, Josh D.
Mohanty, Radha
Jiang, Dongming
Ziegler, Todd E.
Huang, Mingya G.
Kuriakose, Saritha V.
Skottke, Kyle
Repetti, Peter P.
Reuber, T. Lynne
Ruff, Thomas G.
Petracek, Marie E.
Loida, Paul J.
Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking
title Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking
title_full Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking
title_fullStr Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking
title_full_unstemmed Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking
title_short Expression of a Truncated ATHB17 Protein in Maize Increases Ear Weight at Silking
title_sort expression of a truncated athb17 protein in maize increases ear weight at silking
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3988052/
https://www.ncbi.nlm.nih.gov/pubmed/24736658
http://dx.doi.org/10.1371/journal.pone.0094238
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