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Overexpression of PdC3H17 Confers Tolerance to Drought Stress Depending on Its CCCH Domain in Populus.

Identifieur interne : 000806 ( Main/Exploration ); précédent : 000805; suivant : 000807

Overexpression of PdC3H17 Confers Tolerance to Drought Stress Depending on Its CCCH Domain in Populus.

Auteurs : Yamei Zhuang [République populaire de Chine] ; Congpeng Wang [République populaire de Chine] ; Yang Zhang [République populaire de Chine] ; Sihui Chen [République populaire de Chine] ; Dian Wang [République populaire de Chine] ; Qing Liu [République populaire de Chine] ; Gongke Zhou [République populaire de Chine] ; Guohua Chai [République populaire de Chine]

Source :

RBID : pubmed:32063912

Abstract

Plant CCCH zinc finger proteins control growth, development, and stress responses mainly at the post-transcriptional level. Currently, limited reports are available about the roles of plant CCCH proteins in drought tolerance. In this study, we provided evidence showing that PdC3H17 from Populus deltoides × P. euramericana involves drought tolerance and response. Overexpression of PdC3H17 in poplar caused dwarf, resulted in higher stem water potential, and showed increased photosynthetic and ROS-scavenging abilities, thereby enhancing tolerance to drought stress, compared to controls. Accordingly, after drought treatment the stem elongation and thickening rates of these overexpression lines were higher than those of the controls. However, overexpression of the coding region excluding the CCCH domain of PdC3H17 roughly exhibited WT-like physiological and drought-resistant phenotypes, indicating the requirement of the CCCH domain for PdC3H17 controlling these processes. In addition, N-terminal sequence of PdC3H17 was found to possess transcriptional activity ability in yeast cells. Together, our results suggest that PdC3H17 may depend on its CCCH domain to control drought tolerance in Populus.

DOI: 10.3389/fpls.2019.01748
PubMed: 32063912
PubMed Central: PMC6999075


Affiliations:

Links toward previous steps (curation, corpus...)

Le document en format XML

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<div type="abstract" xml:lang="en">Plant CCCH zinc finger proteins control growth, development, and stress responses mainly at the post-transcriptional level. Currently, limited reports are available about the roles of plant CCCH proteins in drought tolerance. In this study, we provided evidence showing that
<i>Pd</i>
C3H17 from
<i>Populus deltoides × P. euramericana</i>
involves drought tolerance and response. Overexpression of
<i>PdC3H17</i>
in poplar caused dwarf, resulted in higher stem water potential, and showed increased photosynthetic and ROS-scavenging abilities, thereby enhancing tolerance to drought stress, compared to controls. Accordingly, after drought treatment the stem elongation and thickening rates of these overexpression lines were higher than those of the controls. However, overexpression of the coding region excluding the CCCH domain of
<i>Pd</i>
C3H17 roughly exhibited WT-like physiological and drought-resistant phenotypes, indicating the requirement of the CCCH domain for
<i>Pd</i>
C3H17 controlling these processes. In addition, N-terminal sequence of
<i>Pd</i>
C3H17 was found to possess transcriptional activity ability in yeast cells. Together, our results suggest that
<i>Pd</i>
C3H17 may depend on its CCCH domain to control drought tolerance in
<i>Populus</i>
.</div>
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<i>Pd</i>
C3H17 from
<i>Populus deltoides × P. euramericana</i>
involves drought tolerance and response. Overexpression of
<i>PdC3H17</i>
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C3H17 roughly exhibited WT-like physiological and drought-resistant phenotypes, indicating the requirement of the CCCH domain for
<i>Pd</i>
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