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Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein, a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley Plant Development and Stress Response
[Image: see text] The timing of whole-plant senescence influences important agricultural traits such as yield and grain protein content. Post-transcriptional regulation by plant RNA-binding proteins is essential for proper control of gene expression, development, and stress responses. Here, we repor...
Autores principales: | , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
American
Chemical Society
2014
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Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4278681/ https://www.ncbi.nlm.nih.gov/pubmed/25495582 http://dx.doi.org/10.1021/bi5007223 |
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author | Tripet, Brian P. Mason, Katelyn E. Eilers, Brian J. Burns, Jennifer Powell, Paul Fischer, Andreas M. Copié, Valérie |
author_facet | Tripet, Brian P. Mason, Katelyn E. Eilers, Brian J. Burns, Jennifer Powell, Paul Fischer, Andreas M. Copié, Valérie |
author_sort | Tripet, Brian P. |
collection | PubMed |
description | [Image: see text] The timing of whole-plant senescence influences important agricultural traits such as yield and grain protein content. Post-transcriptional regulation by plant RNA-binding proteins is essential for proper control of gene expression, development, and stress responses. Here, we report the three-dimensional solution NMR structure and nucleic acid-binding properties of the barley glycine-rich RNA-binding protein HvGR-RBP1, whose transcript has been identified as being >45-fold up-regulated in early—as compared to late—senescing near-isogenic barley germplasm. NMR analysis reveals that HvGR-RBP1 is a multidomain protein comprising a well-folded N-terminal RNA Recognition Motif (RRM) and a structurally disordered C-terminal glycine-rich domain. Chemical shift differences observed in 2D (1)H–(15)N correlation (HSQC) NMR spectra of full-length HvGR-RBP1 and N-HvGR-RBP1 (RRM domain only) suggest that the two domains can interact both in-trans and intramolecularly, similar to what is observed in the tobacco NtGR-RBP1 protein. Further, we show that the RRM domain of HvGR-RBP1 binds single-stranded DNA nucleotide fragments containing the consensus nucleotide sequence 5′-TTCTGX-3′ with low micromolar affinity in vitro. We also demonstrate that the C-terminal glycine-rich (HvGR) domain of Hv-GR-RBP1 can interact nonspecifically with ssRNA in vitro. Structural similarities with other plant glycine-rich RNA-binding proteins suggest that HvGR-RBP1 may be multifunctional. Based on gene expression analysis following cold stress in barley and E. coli growth studies following cold shock treatment, we conclude that HvGR-RBP1 functions in a manner similar to cold-shock proteins and harbors RNA chaperone activity. HvGR-RBP1 is therefore not only involved in the regulation of barley development including senescence, but also functions in plant responses to environmental stress. |
format | Online Article Text |
id | pubmed-4278681 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2014 |
publisher | American
Chemical Society |
record_format | MEDLINE/PubMed |
spelling | pubmed-42786812015-11-25 Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein, a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley Plant Development and Stress Response Tripet, Brian P. Mason, Katelyn E. Eilers, Brian J. Burns, Jennifer Powell, Paul Fischer, Andreas M. Copié, Valérie Biochemistry [Image: see text] The timing of whole-plant senescence influences important agricultural traits such as yield and grain protein content. Post-transcriptional regulation by plant RNA-binding proteins is essential for proper control of gene expression, development, and stress responses. Here, we report the three-dimensional solution NMR structure and nucleic acid-binding properties of the barley glycine-rich RNA-binding protein HvGR-RBP1, whose transcript has been identified as being >45-fold up-regulated in early—as compared to late—senescing near-isogenic barley germplasm. NMR analysis reveals that HvGR-RBP1 is a multidomain protein comprising a well-folded N-terminal RNA Recognition Motif (RRM) and a structurally disordered C-terminal glycine-rich domain. Chemical shift differences observed in 2D (1)H–(15)N correlation (HSQC) NMR spectra of full-length HvGR-RBP1 and N-HvGR-RBP1 (RRM domain only) suggest that the two domains can interact both in-trans and intramolecularly, similar to what is observed in the tobacco NtGR-RBP1 protein. Further, we show that the RRM domain of HvGR-RBP1 binds single-stranded DNA nucleotide fragments containing the consensus nucleotide sequence 5′-TTCTGX-3′ with low micromolar affinity in vitro. We also demonstrate that the C-terminal glycine-rich (HvGR) domain of Hv-GR-RBP1 can interact nonspecifically with ssRNA in vitro. Structural similarities with other plant glycine-rich RNA-binding proteins suggest that HvGR-RBP1 may be multifunctional. Based on gene expression analysis following cold stress in barley and E. coli growth studies following cold shock treatment, we conclude that HvGR-RBP1 functions in a manner similar to cold-shock proteins and harbors RNA chaperone activity. HvGR-RBP1 is therefore not only involved in the regulation of barley development including senescence, but also functions in plant responses to environmental stress. American Chemical Society 2014-11-25 2014-12-23 /pmc/articles/PMC4278681/ /pubmed/25495582 http://dx.doi.org/10.1021/bi5007223 Text en Copyright © 2014 American Chemical Society This is an open access article published under an ACS AuthorChoice License (http://pubs.acs.org/page/policy/authorchoice_termsofuse.html) , which permits copying and redistribution of the article or any adaptations for non-commercial purposes. |
spellingShingle | Tripet, Brian P. Mason, Katelyn E. Eilers, Brian J. Burns, Jennifer Powell, Paul Fischer, Andreas M. Copié, Valérie Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein, a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley Plant Development and Stress Response |
title | Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein,
a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley
Plant Development and Stress Response |
title_full | Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein,
a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley
Plant Development and Stress Response |
title_fullStr | Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein,
a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley
Plant Development and Stress Response |
title_full_unstemmed | Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein,
a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley
Plant Development and Stress Response |
title_short | Structural and Biochemical Analysis of the Hordeum vulgare L. HvGR-RBP1 Protein,
a Glycine-Rich RNA-Binding Protein Involved in the Regulation of Barley
Plant Development and Stress Response |
title_sort | structural and biochemical analysis of the hordeum vulgare l. hvgr-rbp1 protein,
a glycine-rich rna-binding protein involved in the regulation of barley
plant development and stress response |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4278681/ https://www.ncbi.nlm.nih.gov/pubmed/25495582 http://dx.doi.org/10.1021/bi5007223 |
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