2017
DOI: 10.1007/s00438-017-1343-z
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Marker-assisted introgression of resistance to fusarium wilt race 2 in Pusa 256, an elite cultivar of desi chickpea

Abstract: Fusarium wilt caused by F. oxysporum f. sp. ciceris causes extensive damage to chickpea (Cicer arietinum L.) in many parts of the world. In the central part of India, pathogen race 2 (Foc 2) causes severe yield losses. We initiated molecular marker-assisted backcrossing (MABC) using desi cultivar, Vijay, as a donor to introgress resistance to this race (Foc2) in Pusa 256, another elite desi cultivar of chickpea. To confirm introgression of resistance for this race, foreground selection was undertaken using two… Show more

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Cited by 68 publications
(33 citation statements)
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“…Genomics-assisted breeding (GAB; Varshney et al, 2005) was proposed to integrate genomics in breeding and it has been quite successful for several traits in cereals (Septiningsih et al, 2013;Varshney et al, 2006) and legumes (Varshney, 2016;Pratap et al, 2017). Recently, Reynolds and Langridge (2016) have suggested crossing parents with different complex but complementary traits to achieve cumulative gene action for yield, while selecting progeny using remote sensing in combination with genomic selection.…”
Section: Genomics-assisted Breedingmentioning
confidence: 99%
“…Genomics-assisted breeding (GAB; Varshney et al, 2005) was proposed to integrate genomics in breeding and it has been quite successful for several traits in cereals (Septiningsih et al, 2013;Varshney et al, 2006) and legumes (Varshney, 2016;Pratap et al, 2017). Recently, Reynolds and Langridge (2016) have suggested crossing parents with different complex but complementary traits to achieve cumulative gene action for yield, while selecting progeny using remote sensing in combination with genomic selection.…”
Section: Genomics-assisted Breedingmentioning
confidence: 99%
“…The use of MABC enabled to achieve 95% RPGR in early generations (BC 2 F 1 derived from Annigeri 1 × WR 315 cross), which could be otherwise achieved only in BC 3 F 1 and BC 4 F 1 through conventional breeding method. Successful application of MABC approach in chickpea in introgressing drought (Varshney et al 2013b ), FW (Varshney et al 2014c ; Pratap et al 2017 ), Ascochyta blight (Varshney et al 2014c ) into elite cultivars has unequivocally proved the advantage of MABC in breeding improved cultivars. In chickpea, superior lines with enhanced resistance to foc1 (Varshney et al 2014c ) and foc2 (Pratap et al 2017 ) were developed in the genetic backgrounds of C 214 and Pusa 256 elite chickpea cultivars, respectively.…”
Section: Discussionmentioning
confidence: 99%
“…In addition to the above-mentioned released chickpea varieties, several molecular breeding lines, developed using the MABC approach for drought tolerance and FW resistance in diverse background (Varshney et al 2014b;Pratap et al 2017), are being assessed in multi-location trials by ICAR-AICRP on chickpea. These lines with high-yield performance and enhanced resistance to biotic and abiotic stresses demonstrate the potential of integrating genomics with breeding efforts to develop superior climate-resilient varieties in chickpea.…”
Section: Super Annigeri 1 and Improved Jg74 Lines Resistant To Fusarimentioning
confidence: 99%