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Review
. 2023 Aug 29;23(3):283.
doi: 10.1007/s10142-023-01202-0.

Genetic modification strategies for enhancing plant resilience to abiotic stresses in the context of climate change

Amman KhokharVoytas  1 Muhammad Shahbaz  2 Muhammad Faisal Maqsood  3 Usman Zulfiqar  4 Nargis Naz  3 Usama Zafar Iqbal  1 Maheen Sara  5 Muhammad Aqeel  6 Noreen Khalid  7 Ali Noman  8 Faisal Zulfiqar  9 Khalid M Al Syaad  10 Manal Abdullah AlShaqhaa  10
Affiliations
Review

Genetic modification strategies for enhancing plant resilience to abiotic stresses in the context of climate change

Amman KhokharVoytas et al. Funct Integr Genomics. .

Erratum in

Abstract

Enhancing the resilience of plants to abiotic stresses, such as drought, salinity, heat, and cold, is crucial for ensuring global food security challenge in the context of climate change. The adverse effects of climate change, characterized by rising temperatures, shifting rainfall patterns, and increased frequency of extreme weather events, pose significant threats to agricultural systems worldwide. Genetic modification strategies offer promising approaches to develop crops with improved abiotic stress tolerance. This review article provides a comprehensive overview of various genetic modification techniques employed to enhance plant resilience. These strategies include the introduction of stress-responsive genes, transcription factors, and regulatory elements to enhance stress signaling pathways. Additionally, the manipulation of hormone signaling pathways, osmoprotectant accumulation, and antioxidant defense mechanisms is discussed. The use of genome editing tools, such as CRISPR-Cas9, for precise modification of target genes related to stress tolerance is also explored. Furthermore, the challenges and future prospects of genetic modification for abiotic stress tolerance are highlighted. Understanding and harnessing the potential of genetic modification strategies can contribute to the development of resilient crop varieties capable of withstanding adverse environmental conditions caused by climate change, thereby ensuring sustainable agricultural productivity and food security.

Keywords: Abiotic stress; CRISPR/Cas9; Crop improvement; Genetic engineering; Genome editing.

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References

    1. Abobatta WF (2020) Plant responses and tolerance to combined salt and drought stress. Salt and Drought Stress Tolerance in Plants, Signaling Networks and Adaptive Mechanisms, pp 17–52 - DOI
    1. Ahammed GJ, Li X, Yu J (2023) Introduction to plant hormones and climate change. In: Plant Hormones and Climate Change. Springer, pp 1–16 - DOI
    1. Ahmad A, Ashraf S, Munawar N, Jamil A, Ghaffar A, Shahbaz M (2021) CRISPR/Cas-mediated abiotic stress tolerance in crops. The Future of Food Security, CRISPR Crops, pp 177–211
    1. Ahmad N, Jianyu L, Xu T, Noman M, Jameel A, Na Y, Fawei W (2019) Overexpression of a novel cytochrome P450 promotes flavonoid biosynthesis and osmotic stress tolerance in transgenic Arabidopsis. Genes 10(10):756 - PubMed - PMC - DOI
    1. Ahmad P, Ashraf M, Younis M, Hu X, Kumar A, Akram NA, Al-Qurainy F (2012) Role of transgenic plants in agriculture and biopharming. Biotechnol Adv 30:24–540 - DOI

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