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Genetic and Genomic Resources for Improving Biotic Stress Tolerance in Chickpea,olstering stress resistance have garnered substantial success. However, recent years have witnessed the emergence of innovative strategies, such as functional genomics and molecular breeding, targeting increased yields under adverse environmental conditions. The prospect of leveraging genomic tools

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Genomics-Aided Breeding Strategies for Biotic Stress in Pigeonpea,hods have some limitations such as low genetic gain and long generation time. Therefore, there is a need to explore the potential of GAB to enhance biotic stress resistance or tolerance in pigeonpea using advanced genomic tools and technologies such as whole-genome sequencing (WGS), genome editing (

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Genomics-Enabled Breeding for Manoeuvring Biotic Stresses in Lentil,ssues. The pace of integrating interactome methods of multiomics into breeding efforts and employing advanced tools like genetic engineering and genome editing in lentil has been notably slower. Consequently, there exists significant potential to explore these methodologies, enabling a substantial l

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Biotic Stresses in Mung Bean: Achievements and Prospects for Genomics-Enabled Breeding Strategies,yable cutting-edge technologies are transgenic approaches, .-gene cloning, focused germplasm selection, genomic selection, haplotype-based breeding, genome editing, and speed breeding techniques, demonstrating their potential in accelerating breeding and enhancing biotic stress resistance in mung be

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Genomic-Assisted Breeding Strategies for Biotic Stress in Common Bean: Progress and Prospects,understanding the genetics for breeding resistance against many insects and pests, including the bean fly, thrips, whiteflies, bean pod weevil, tropical bruchid, leafhoppers, and root-knot nematode. Utilizing common bean cultivars that are resistant is essential for implementing a robust, cost-effec

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Integrating Germplasm Diversity and Omics Science to Enhance Biotic Stress Resistance in Soybean, soybeans. Numerous resistance genes and quantitative trait loci (QTL) have been identified and confirmed for major diseases, contributing to the development of resistant soybean cultivars through marker-assisted breeding. With advancements in sequence-based genotyping and haplotype-based breeding,

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