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Enhancing Crop Resilience to Drought Stress through CRISPR-Cas9 Genome Editing

by Corrado, Giandomenico , Kumar, Pradeep , Giordano, Maria , Pandey, Sudhakar , Choudhary, Sadiya M. , Rouphael, Youssef , Kalunke, Raviraj , Magotra, Isha , Rai, Gyanendra Kumar , Khanday, Danish Mushtaq , Kosser, Rafia

in Abiotic factors / abiotic stress / Agricultural production / agricultural productivity / agriculture / Climate change / CRISPR / CRISPR-Cas systems / Crop resilience / Crop yield / Crop yields / Crops / death / Developmental stages / Drought / Drought resistance / drought tolerance / Droughts / Ecosystem components / Editing / Flowers & plants / Genes / genetic background / genetic improvement / Genetic research / genome / Genome editing / Genomes / Genomics / Hardiness / Methods / Nutrients / Optimization / osmotic stress / Plant breeding / Plant growth / Plants / Plants (botany) / Review / soil / Water availability / Water shortages / water stress / yield

2023

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Enhancing Crop Resilience to Drought Stress through CRISPR-Cas9 Genome Editing

2023

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Enhancing Crop Resilience to Drought Stress through CRISPR-Cas9 Genome Editing

2023

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Journal Article

Enhancing Crop Resilience to Drought Stress through CRISPR-Cas9 Genome Editing

Corrado, Giandomenico,

Kumar, Pradeep,

Giordano, Maria,

Pandey, Sudhakar,

Choudhary, Sadiya M.,

Rouphael, Youssef,

Kalunke, Raviraj,

Magotra, Isha,

Rai, Gyanendra Kumar,

Khanday, Danish Mushtaq,

Kosser, Rafia

2023

Overview

With increasing frequency and severity of droughts in various parts of the world, agricultural productivity may suffer major setbacks. Among all the abiotic factors, drought is likely to have one of the most detrimental effects on soil organisms and plants. Drought is a major problem for crops because it limits the availability of water, and consequently nutrients which are crucial for plant growth and survival. This results in reduced crop yields, stunted growth, and even plant death, according to the severity and duration of the drought, the plant’s developmental stage, and the plant’s genetic background. The ability to withstand drought is a highly complex characteristic that is controlled by multiple genes, making it one of the most challenging attributes to study, classify, and improve. Clustered Regularly Interspaced Short Palindromic Repeat (CRISPR) technology has opened a new frontier in crop enhancement, revolutionizing plant molecular breeding. The current review provides a general understanding of principles as well as optimization of CRISPR system, and presents applications on genetic enhancement of crops, specifically in terms of drought resistance and yield. Moreover, we discuss how innovative genome editing techniques can aid in the identification and modification of genes conferring drought tolerance.

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Publisher

MDPI AG,MDPI

Subject

Abiotic factors

/ abiotic stress

/ Agricultural production

/ agricultural productivity

/ agriculture

/ Climate change

/ CRISPR