AtHD2D gene plays a role in plant growth, development, and response to abiotic stresses in Arabidopsis thaliana

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creativework.keywords - en

Plant gene expression

Arabidopsis thaliana

Plants--Development

Plants--Adaption

Plants--Effect of stress on

creativework.keywords - fr

Plantes--Expression génique

Arabidopsis thaliana

Plantes--Développement

Plantes--Adaptation

Plantes--Effets du stress sur

dc.contributor.author

Han, Zhaofen

Yu, Huimin

Zhao, Zhong

Hunter, David

Luo, Xinjuan

Duan, Jun

Tian, Lining

dc.date.accepted

2016-02-29

dc.date.accessioned

2025-01-07T18:51:07Z

dc.date.available

2025-01-07T18:51:07Z

dc.date.issued

2016-03-31

dc.date.submitted

2015-09-20

dc.description.abstract - en

The histone deacetylases play important roles in the regulation of gene expression and the subsequent control of a number of important biological processes, including those involved in the response to environmental stress. A specific group of histone deacetylase genes, HD2, is present in plants. In Arabidopsis, HD2s include HD2A, HD2B, HD2C, and HD2D. Previous research showed that HD2A, HD2B, and HD2C are more related in terms of expression and function, but not HD2D. In this report, we studied different aspects of AtHD2D in Arabidopsis with respect to plant response to drought and other abiotic stresses. Bioinformatics analysis indicates that HD2D is distantly related to other HD2 genes. Transient expression in Nicotiana benthamiana and stable expression in Arabidopsis of AtHD2D fused with gfp showed that AtHD2D was expressed in the nucleus. Overexpression of AtHD2D resulted in developmental changes including fewer main roots, more lateral roots, and a higher root:shoot ratio. Seed germination and plant flowering time were delayed in transgenic plants expressing AtHD2D, but these plants exhibited higher degrees of tolerance to abiotic stresses, including drought, salt, and cold stresses. Physiological studies indicated that the malondialdehyde (MDA) content was high in wild-type plants but in plants overexpressing HD2D the MDA level increased slowly in response to stress conditions of drought, cold, and salt stress. Furthermore, electrolyte leakage in leaf cells of wild type plants increased but remained stable in transgenic plants. Our results indicate that AtHD2D is unique among HD2 genes and it plays a role in plant growth and development regulation and these changes can modulate plant stress responses.

dc.identifier.citation

Han, Z., Yu, H., Zhao, Z., Hunter, D., Luo, X., Duan, J., & Tian, L. (2016). AtHD2D gene plays a role in plant growth, development, and response to abiotic stresses in Arabidopsis thaliana. Frontiers in Plant Science, 7, Article 310. https://doi.org/10.3389/fpls.2016.00310

dc.identifier.doi

https://doi.org/10.3389/fpls.2016.00310

dc.identifier.issn

1664-462X

dc.identifier.uri

https://open-science.canada.ca/handle/123456789/3250

dc.language.iso

en

dc.publisher - en

Frontiers Research Foundation

dc.rights - en

Creative Commons Attribution 4.0 International (CC BY 4.0)

dc.rights - fr

Creative Commons Attribution 4.0 International (CC BY 4.0)

dc.rights.openaccesslevel - en

Gold

dc.rights.openaccesslevel - fr

Or

dc.rights.uri - en

https://creativecommons.org/licenses/by/4.0/

dc.rights.uri - fr

https://creativecommons.org/licenses/by/4.0/deed.fr

dc.subject - en

Plants

Genetics

dc.subject - fr

Plante

Génétique

dc.subject.en - en

Plants

Genetics

dc.subject.fr - fr

Plante

Génétique

dc.title - en

AtHD2D gene plays a role in plant growth, development, and response to abiotic stresses in Arabidopsis thaliana

dc.type - en

Article

dc.type - fr

Article

local.acceptedmanuscript.articlenum

310

local.article.journaltitle - en

Frontiers in Plant Science

local.article.journalvolume

7

local.pagination

1-13

local.peerreview - en

Yes

local.peerreview - fr

Oui

local.requestdoi

No

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