2019
DOI: 10.1186/s12284-019-0329-3
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Improving rice blast resistance of Feng39S through molecular marker-assisted backcrossing

Abstract: Background Rice blast caused by Magnaporthe oryzae is one of the most widespread biotic constraints that threaten rice production. Using major resistance genes for rice blast resistance improvement is considered to be an efficient and technically feasible approach to achieve optimal grain yield. Results We report here the introgression of the broad-spectrum blast resistance gene Pi2 into the genetic background of an elite PTGMS line,… Show more

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Cited by 20 publications
(19 citation statements)
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“…For instance, NILs of drought-tolerant rice have been developed through introgression of root QTLs derived from a drought-tolerant japonica upland cultivar CT9993 into a lowland susceptible indica cultivar IR20 (Suji et al 2012 ). Yang et al ( 2019 ) had introgressed the blast resistance gene, Pi2 , into an elite line by coupling MABC with genomics-based background selection. Kang et al ( 2019 ) exploited the rapid generation advance system for expedited development of near-isogenic lines (NIL) from rice stripe virus resistant and susceptible parents, followed by MABC to develop a virus-resistant line in a short duration.…”
Section: Genomics-assisted Breeding For Trait Improvementmentioning
confidence: 99%
“…For instance, NILs of drought-tolerant rice have been developed through introgression of root QTLs derived from a drought-tolerant japonica upland cultivar CT9993 into a lowland susceptible indica cultivar IR20 (Suji et al 2012 ). Yang et al ( 2019 ) had introgressed the blast resistance gene, Pi2 , into an elite line by coupling MABC with genomics-based background selection. Kang et al ( 2019 ) exploited the rapid generation advance system for expedited development of near-isogenic lines (NIL) from rice stripe virus resistant and susceptible parents, followed by MABC to develop a virus-resistant line in a short duration.…”
Section: Genomics-assisted Breeding For Trait Improvementmentioning
confidence: 99%
“…Single resistance genes, though, cannot effectively deal with multiple pathotype infections simultaneously; thus, multiple studies used polymerized rice blast genes to improve the blast resistance of susceptible varieties (Jiang et al 2012;Zhao et al 2018), including enhanced Jin 23B and Kongyu 131 through Pi1 and Pi2 pyramiding, pyramiding blast resistance genes Piz5 and Pi54 into the elite Basmati rice restorer line PRR 78, and breeding the high-yielding and durable resistance rice variety Longliangyou 3189 by using Pigm (Koide et al 2010;Singh et al 2013;Deng et al 2017;Yang et al 2019;Yin et al 2021). However, it is challenging to pyramid multiple favorable genes because of the laborious molecular detection techniques and long breeding periods involved (Yang et al 2019). Anther culture technology produces haploid plants from pollen microspores that can become diploid either naturally or via treatment with active mitotic substances.…”
Section: Introductionmentioning
confidence: 99%
“…Single resistance genes, though, cannot effectively deal with multiple pathotype infections simultaneously; thus, multiple studies used polymerized rice blast genes to improve the blast resistance of susceptible varieties (Jiang et al 2012 Yin et al 2021). However, it is challenging to pyramid multiple favorable genes because of the laborious molecular detection techniques and long breeding periods involved (Yang et al 2019). Anther culture technology produces haploid plants from pollen microspores that can become diploid either naturally or via treatment with active mitotic substances.…”
Section: Introductionmentioning
confidence: 99%