Development and evaluation of <i>Fusarium</i> wilt‐resistant and high‐yielding chickpea advanced breeding line, KCD 11

Laxuman, C.; Naik, Yogesh Dashrath; Desai, B. K.; Kenganal, Mallikarjun; Patil, Bharat; Reddy, B. S.; Patil, D. H.; Chakurte, Sidramappa; Kuchanur, P. H.; K, Shiva Kumar; Gaddi, Ashok Kumar; Yogesh, L. N.; Nidagundi, Jayaprakash; Dodamani, B. M.; Sunkad, Gururaj; Thudi, Mahendar; Varshney, Rajeev K.

doi:10.1002/tpg2.20460

The Plant Genome

2024

DOI: 10.1002/tpg2.20460

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Development and evaluation of Fusarium wilt‐resistant and high‐yielding chickpea advanced breeding line, KCD 11

C. Laxuman,

Yogesh Dashrath Naik,

B. K. Desai

et al.

Abstract: Fusarium wilt (FW) is the most severe soil‐borne disease of chickpea that causes yield losses up to 100%. To improve FW resistance in JG 11, a high‐yielding variety that became susceptible to FW, we used WR 315 as the donor parent and followed the pedigree breeding method. Based on disease resistance and yield performance, four lines were evaluated in station trials during 2017–2018 and 2018–2019 at Kalaburagi, India. Further, two lines, namely, Kalaburagi chickpea desi 5 (KCD 5) and KCD 11, which possesses th… Show more

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Genetic resources and genes/QTLs for gram pod borer (Helicoverpa armigera Hübner) resistance in chickpea from the Western Himalayas

Rehman,

Gul,

Parthiban

et al. 2024

The Plant Genome

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Helicoverpa armigera (also known as gram pod borer) is a serious threat to chickpea production in the world. A set of 173 chickpea genotypes were evaluated for H. armigera resistance, including mean larval population (MLP), percentage pod damage (PPD), and pest resistance (PR) for 2 consecutive years (year 2020 and 2021). The same core set was also genotyped with 50K Axiom CicerSNP Array. The trait data and 50,000 single nucleotide polymorphism genotypic data were used together to work out marker–trait associations (MTAs) using different genome‐wide association studies models. For MLP, a total of 53 MTAs were identified, including 25 MTAs in year 2020 and 28 MTAs in year 2021. A set of three MTAs was found common in both environments. For PPD, two MTAs in year 2020 and five MTAs in year 2021 were identified. A set of two MTAs were common in both environments. Similarly, for PR, only two MTAs common in both environments were identified. Interestingly, a common MTA (Affx_123255526) on chromosome 2 (Ca2) was found to be associated with all the three component traits (MLP, PPD, and PR) of pod borer resistance in chickpea. Further, we report key genes that encode SCAMPs (that facilitates the secretion of defense‐related molecules), quinone oxidoreductase (enables the production of reactive oxygen species that promotes diapause of gram pod borer), and NB‐LRR proteins that have been implicated in plant defense against H. armigera. The resistant chickpea genotypes, MTAs, and key genes reported in the present study may prove useful in the future for developing pod borer–resistant chickpea varieties.

show abstract

Genetic resources and genes/QTLs for gram pod borer (Helicoverpa armigera Hübner) resistance in chickpea from the Western Himalayas

Rehman,

Gul,

Parthiban

et al. 2024

The Plant Genome

View full text Add to dashboard Cite

show abstract

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Development and evaluation of Fusarium wilt‐resistant and high‐yielding chickpea advanced breeding line, KCD 11

Cited by 1 publication

References 25 publications

Genetic resources and genes/QTLs for gram pod borer (Helicoverpa armigera Hübner) resistance in chickpea from the Western Himalayas

Genetic resources and genes/QTLs for gram pod borer (Helicoverpa armigera Hübner) resistance in chickpea from the Western Himalayas

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