Involvement of dehydrin proteins in mitigating the negative effects of drought stress in plants

Riyazuddin Riyazuddin^{1

2}, Nisha Nisha³, Kalpita Singh⁴, Radhika Verma⁵, Ravi Gupta⁶

Affiliations

¹ Department of Plant Biology, Faculty of Science and Informatics, University of Szeged, Közép fasor 52, 6726, Szeged, Hungary.
² Doctoral School in Biology, Faculty of Science and Informatics, University of Szeged, Szeged, Hungary.
³ Department of Integrated Plant Protection, Faculty of Horticultural Sciences, Szent István University, Gödöllő, Hungary.
⁴ School of Biotechnology, Gautam Buddha University, Greater Noida, Uttar Pradesh, 201312, India.
⁵ Department of Biotechnology, Visva-Bharati Central University, Santiniketan, West Bengal, 731235, India.
⁶ Department of Botany, School of Chemical and Life Sciences, Jamia Hamdard, Hamdard Nagar, New Delhi, 110062, India. dr.ravigupta@jamiahamdard.ac.in.

PMID: 34057589
DOI: 10.1007/s00299-021-02720-6

Review

Involvement of dehydrin proteins in mitigating the negative effects of drought stress in plants

Riyazuddin Riyazuddin et al. Plant Cell Rep. 2022 Mar.

. 2022 Mar;41(3):519-533.

doi: 10.1007/s00299-021-02720-6. Epub 2021 May 31.

Authors

Riyazuddin Riyazuddin^{1

2}, Nisha Nisha³, Kalpita Singh⁴, Radhika Verma⁵, Ravi Gupta⁶

Affiliations

¹ Department of Plant Biology, Faculty of Science and Informatics, University of Szeged, Közép fasor 52, 6726, Szeged, Hungary.
² Doctoral School in Biology, Faculty of Science and Informatics, University of Szeged, Szeged, Hungary.
³ Department of Integrated Plant Protection, Faculty of Horticultural Sciences, Szent István University, Gödöllő, Hungary.
⁴ School of Biotechnology, Gautam Buddha University, Greater Noida, Uttar Pradesh, 201312, India.
⁵ Department of Biotechnology, Visva-Bharati Central University, Santiniketan, West Bengal, 731235, India.
⁶ Department of Botany, School of Chemical and Life Sciences, Jamia Hamdard, Hamdard Nagar, New Delhi, 110062, India. dr.ravigupta@jamiahamdard.ac.in.

PMID: 34057589
DOI: 10.1007/s00299-021-02720-6

Abstract

Drought stress-induced crop loss has been considerably increased in recent years because of global warming and changing rainfall pattern. Natural drought-tolerant plants entail the recruitment of a variety of metabolites and low molecular weight proteins to negate the detrimental effects of drought stress. Dehydrin (DHN) proteins are one such class of proteins that accumulate in plants during drought and associated stress conditions. These proteins are highly hydrophilic and perform multifaceted roles in the protection of plant cells during drought stress conditions. Evidence gathered over the years suggests that DHN proteins impart drought stress tolerance by enhancing the water retention capacity, elevating chlorophyll content, maintaining photosynthetic machinery, activating ROS detoxification, and promoting the accumulation of compatible solutes, among others. Overexpression studies have indicated that these proteins can be effectively targeted to mitigate the negative effects of drought stress and for the development of drought stress-tolerant crops to feed the ever-growing population in the near future. In this review, we describe the mechanism of DHNs mediated drought stress tolerance in plants and their interaction with several phytohormones to provide an in-depth understanding of DHNs function.

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References

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Involvement of dehydrin proteins in mitigating the negative effects of drought stress in plants

Affiliations

Involvement of dehydrin proteins in mitigating the negative effects of drought stress in plants

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