<i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes

<i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes

The emerging evidence has shown that plant serine/arginine-rich (SR) proteins play a crucial role in abiotic stress responses by regulating the alternative splicing (AS) of key genes. Recently, we have shown that drought stress enhances the expression of <i>SR45a</i> (also known as <i...

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Main Authors: Muthusamy Muthusamy, Eun Kyung Yoon, Jin A Kim, Mi-Jeong Jeong, Soo In Lee
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Genes
Subjects:
serine/arginine-rich proteins
drought tolerance
alternative splicing
brsr-like 3
thermotolerance
Online Access:https://www.mdpi.com/2073-4425/11/2/182
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spelling doaj-edcb37bc2c7d4d6c95688c7e4397183d2020-11-25T01:30:16ZengMDPI AGGenes2073-44252020-02-0111218210.3390/genes11020182genes11020182<i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target GenesMuthusamy Muthusamy0Eun Kyung Yoon1Jin A Kim2Mi-Jeong Jeong3Soo In Lee4Department of Agricultural Biotechnology, National Institute of Agricultural Sciences (NAS), RDA, Jeonju 54874, KoreaDepartment of Chemical and Biomolecular Engineering, National University of Singapore, 4 Engineering Drive 4, 117585, SingaporeDepartment of Agricultural Biotechnology, National Institute of Agricultural Sciences (NAS), RDA, Jeonju 54874, KoreaDepartment of Agricultural Biotechnology, National Institute of Agricultural Sciences (NAS), RDA, Jeonju 54874, KoreaDepartment of Agricultural Biotechnology, National Institute of Agricultural Sciences (NAS), RDA, Jeonju 54874, KoreaThe emerging evidence has shown that plant serine/arginine-rich (SR) proteins play a crucial role in abiotic stress responses by regulating the alternative splicing (AS) of key genes. Recently, we have shown that drought stress enhances the expression of <i>SR45a</i> (also known as <i>SR-like 3</i>) in <i>Brassica rapa.</i> Herein, we unraveled the hitherto unknown functions of <i>BrSR45a</i> in drought stress response by comparing the phenotypes, chlorophyll a fluorescence and splicing patterns of the drought-responsive genes of Arabidopsis<i> BrSR45a</i> overexpressors (OEs), homozygous mutants (SALK_052345), and controls (Col-0). Overexpression and loss of function did not result in aberrant phenotypes; however, the overexpression of <i>BrSR45a</i> was positively correlated with drought tolerance and the stress recovery rate in an expression-dependent manner. Moreover, OEs showed a higher drought tolerance index during seed germination (38.16%) than the control lines. Additionally, the overexpression of <i>BrSR45a</i> induced the expression of the drought stress-inducible genes <i>RD29A, NCED3</i>, and <i>DREB2A</i> under normal conditions. To further illustrate the molecular linkages between <i>BrSR45a </i>and drought tolerance, we investigated the AS patterns of key drought-tolerance and <i>BrSR45a</i> interacting genes in OEs, mutants, and controls under both normal and drought conditions. The splicing patterns of <i>DCP5, RD29A, GOLS1, AKR, U2AF,</i> and <i>SDR</i> were different between overexpressors and mutants under normal conditions. Furthermore, drought stress altered the splicing patterns of<i> NCED2, SQE, UPF1</i>, <i>U4/U6-U5 tri-snRNP</i>-<i>associated protein</i>,<i> </i>and<i> UPF1</i> between OEs and mutants, indicating that both overexpression and loss of function differently influenced the splicing patterns of target genes. This study revealed that <i>BrSR45a</i> regulates the drought stress response via the alternative splicing of target genes in a concentration-dependent manner.https://www.mdpi.com/2073-4425/11/2/182serine/arginine-rich proteinsdrought tolerancealternative splicingbrsr-like 3thermotolerance
collection DOAJ
language English
format Article
sources DOAJ
author Muthusamy Muthusamy
Eun Kyung Yoon
Jin A Kim
Mi-Jeong Jeong
Soo In Lee
spellingShingle Muthusamy Muthusamy
Eun Kyung Yoon
Jin A Kim
Mi-Jeong Jeong
Soo In Lee
<i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes
Genes
serine/arginine-rich proteins
drought tolerance
alternative splicing
brsr-like 3
thermotolerance
author_facet Muthusamy Muthusamy
Eun Kyung Yoon
Jin A Kim
Mi-Jeong Jeong
Soo In Lee
author_sort Muthusamy Muthusamy
title <i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes
title_short <i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes
title_full <i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes
title_fullStr <i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes
title_full_unstemmed <i>Brassica Rapa SR45a</i> Regulates Drought Tolerance via the Alternative Splicing of Target Genes
title_sort <i>brassica rapa sr45a</i> regulates drought tolerance via the alternative splicing of target genes
publisher MDPI AG
series Genes
issn 2073-4425
publishDate 2020-02-01
description The emerging evidence has shown that plant serine/arginine-rich (SR) proteins play a crucial role in abiotic stress responses by regulating the alternative splicing (AS) of key genes. Recently, we have shown that drought stress enhances the expression of <i>SR45a</i> (also known as <i>SR-like 3</i>) in <i>Brassica rapa.</i> Herein, we unraveled the hitherto unknown functions of <i>BrSR45a</i> in drought stress response by comparing the phenotypes, chlorophyll a fluorescence and splicing patterns of the drought-responsive genes of Arabidopsis<i> BrSR45a</i> overexpressors (OEs), homozygous mutants (SALK_052345), and controls (Col-0). Overexpression and loss of function did not result in aberrant phenotypes; however, the overexpression of <i>BrSR45a</i> was positively correlated with drought tolerance and the stress recovery rate in an expression-dependent manner. Moreover, OEs showed a higher drought tolerance index during seed germination (38.16%) than the control lines. Additionally, the overexpression of <i>BrSR45a</i> induced the expression of the drought stress-inducible genes <i>RD29A, NCED3</i>, and <i>DREB2A</i> under normal conditions. To further illustrate the molecular linkages between <i>BrSR45a </i>and drought tolerance, we investigated the AS patterns of key drought-tolerance and <i>BrSR45a</i> interacting genes in OEs, mutants, and controls under both normal and drought conditions. The splicing patterns of <i>DCP5, RD29A, GOLS1, AKR, U2AF,</i> and <i>SDR</i> were different between overexpressors and mutants under normal conditions. Furthermore, drought stress altered the splicing patterns of<i> NCED2, SQE, UPF1</i>, <i>U4/U6-U5 tri-snRNP</i>-<i>associated protein</i>,<i> </i>and<i> UPF1</i> between OEs and mutants, indicating that both overexpression and loss of function differently influenced the splicing patterns of target genes. This study revealed that <i>BrSR45a</i> regulates the drought stress response via the alternative splicing of target genes in a concentration-dependent manner.
topic serine/arginine-rich proteins
drought tolerance
alternative splicing
brsr-like 3
thermotolerance
url https://www.mdpi.com/2073-4425/11/2/182
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