Precisely mapping a major gene conferring resistance to Hessian fly in bread wheat using genotyping-by-sequencing

Li, Genqiao; Wang, Ying; Chen, Ming Shun; Edae, Erena A.; Poland, Jesse; Akhunov, Edward; Chao, Shiaoman; Bai, Guihua; Carver, Brett F.; Yan, Liuling

doi:10.1186/s12864-015-1297-7

Cited by 44 publications

(40 citation statements)

References 28 publications

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“…Recent advances in high‐throughput genotyping technology have enabled the discovery of thousands of molecular markers in wheat, mainly single‐nucleotide polymorphisms (SNPs). The development of high‐density SNP markers in hexaploid wheat are widely used to detect the association between markers and traits in genetic mapping experiments (Cabral et al, 2014; Forrest et al, 2014; Jighly et al, 2015; Li et al, 2015; Assanga et al, 2016). A recent study used the 90K Infinium iSelect SNP array to generate a high‐resolution genetic map for identification of SNPs tightly linked to Wsm2 in a recombinant inbred line (RIL) population derived from a cross of CO960293–2 × ‘TAM 111’ (Assanga et al, 2016).…”

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confidence: 99%

Development and Validation of KASP Markers for Wheat Streak Mosaic Virus Resistance Gene Wsm2

et al. 2017

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Wheat streak mosaic virus (WSMV) can cause significant yield loss in wheat (Triticum aestivum L.) in the Great Plains of North America. A recently identified WSMV resistance gene, Wsm2, was mapped to chromosome 3BS in germplasm line ‘CO960293–2’. Effective genetic markers tightly linked to the gene will enhance the selection of WSMV‐resistant lines through marker‐assisted selection. We have mapped Wsm2 using a high‐density map developed from the wheat 90K Infinium iSelect single‐nucleotide polymorphism (SNP) array with recombinant inbred lines from the cross between CO960293–2 and susceptible cultivar ‘TAM 111’. Array‐based SNPs that mapped within 4 cM of Wsm2 on chromosome 3BS were converted to Kompetitive Allele Specific Polymerase Chain Reaction (KASP) assays in this study. Six KASP SNPs were validated in two doubled haploid populations developed from crosses of ‘RonL’ × ‘Ripper’ and ‘Snowmass’ × ‘Antero’. RonL and Snowmass possess the Wsm2 gene from CO960293–2. Three closely linked KASP SNPs, converted from IAAV6442, BS00018764_51, and wsnp_Ra_c16264_24873670, showed high sensitivity and specificity (0.83 ≤ sensitivity ≤ 0.97, 0.89 ≤ specificity ≤ 0.99). The latter two were also validated in six F2 breeding populations. These three KASP SNPs were effective in differentiating resistant and susceptible genotypes. Comparative mapping was performed using sequences of SNPs flanking Wsm2 and identified candidate genes and regions in Brachypodium and rice (Oryza sativa L. ssp. japonica). The KASP SNPs developed in this study should be useful for marker‐assisted selection of Wsm2 in wheat breeding programs, and the newly constructed map will also facilitate map based cloning of Wsm2.

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Development and Validation of KASP Markers for Wheat Streak Mosaic Virus Resistance Gene Wsm2

et al. 2017

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“…In a previous study (Li et al 2015), a doubled haploid (DH) population was developed from two locally adapted winter wheat cultivars, "Duster" (PI 644016) and "Billings" (PI 656843), both of which are released by the Oklahoma Agricultural Experiment Station. Duster and Billings have occupied significant acreages in the Southern Great Plains due to their outstanding yielding ability (Edwards et al 2012;Hunger et al 2014).…”

Section: Winter Wheat Population Derived From Duster × Billingsmentioning

confidence: 99%

“…The Duster × Billings DH population was genotyped using genotyping-by-sequencing (GBS) approach, and a total of 2358 GBS markers were subjected to linkage mapping for the DH lines (Li et al 2015). The GBS marker sequences were used to blast IWGSC RefSeq v1.0 (https://urgi.versailles.inra.fr/blast/?dbgroup= wheat_iwgsc_refseq_v1_chromosomes), and the resulting physical locations were ordered along each chromosome.…”

Section: Winter Wheat Population Derived From Duster × Billingsmentioning

confidence: 99%

Genetic characterization and deployment of a major gene for grain yield on chromosome arm 1BS in winter wheat

et al. 2020

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Winter bread wheat (Triticum aestivum L., 2n = 6 × =42, AABBDD) cultivars "Duster" and "Billings" have occupied significant acreages in the Southern Great Plains for their outstanding yielding ability. In this study, we discovered a major quantitative trait locus (QTL) QYld.osu-1BS for grain yield in a population of 260 doubled haploid (DH) lines derived from the cross of Duster and Billings. When the population was tested under field conditions for 2 years, QYld.osu-1BS explained 13.9% and 23.5% of the total phenotypic variation. However, no crossover was observed among 40 genotyping-by-sequencing markers covering the region from the telomere to 25.3 Mb in the population of 260 DH lines. Furthermore, no crossover was observed in the region from the telomere to 18.4 Mb, when up to 4146 individual plants within F 2:4 lines derived from the cross of Duster and Billings were screened. The 1BL-1RS translocation was not observed in the region with the abnormal recombination rate in Duster or Billings. Duster is a unique haplotype in the whole exome capture dataset, compared with 57 cultivars and breeding lines with various genetic backgrounds. Unique sequences of the QYld.osu-1BS allele for the higher grain yield in Duster were identified, and kompetitive allele specific PCR (KASP) markers for the unique sequences were developed for breeding of novel cultivars with increased grain yield in winter wheat.

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“…2). By convention, the chromosomes composing a HF zygote"s genome are grouped into eight "S" and a variable number (28)(29)(30)(31)(32) of "E" chromosomes (Stuart et al, 2012). The S chromosomes are divided further into two autosome pairs (A1 and A2) and two "X" chromosome pairs (X1 and X2).…”

Section: H24-virulence Is a Recessive X-linked Traitmentioning

confidence: 99%

Avirulence gene mapping in the Hessian fly (Mayetiola destructor) reveals a protein phosphatase 2C effector gene family

Zhao

Shukle

Navarro-Escalante

et al. 2016

Journal of Insect Physiology

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The genetic tractability of the Hessian fly (HF, Mayetiola destructor) provides an opportunity to investigate the mechanisms insects use to induce plant gall formation. Here we demonstrate that capacity using the newly sequenced HF genome by identifying the gene (vH24) that elicits effector-triggered immunity in wheat (Triticum spp.) seedlings carrying HF resistance gene H24. vH24 was mapped within a 230-kb genomic fragment near the telomere of HF chromosome X1. That fragment contains only 21 putative genes. The best candidate vH24 gene in this region encodes a protein containing a secretion signal and a type-2 serine/threonine protein phosphatase (PP2C) domain. This gene has an H24-virulence associated insertion in its promoter that appears to silence transcription of the gene in H24-virulent larvae. Candidate vH24 is a member of a small family of genes that encode secretion signals and PP2C domains. It belongs to the fraction of genes in the HF genome previously predicted to encode effector proteins. Because PP2C proteins are not normally secreted, our results suggest that these are PP2C effectors that HF larvae inject into wheat cells to redirect, or interfere, with wheat signal transduction pathways.

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Precisely mapping a major gene conferring resistance to Hessian fly in bread wheat using genotyping-by-sequencing

Cited by 44 publications

References 28 publications

Development and Validation of KASP Markers for Wheat Streak Mosaic Virus Resistance Gene Wsm2

Development and Validation of KASP Markers for Wheat Streak Mosaic Virus Resistance Gene Wsm2

Genetic characterization and deployment of a major gene for grain yield on chromosome arm 1BS in winter wheat

Avirulence gene mapping in the Hessian fly (Mayetiola destructor) reveals a protein phosphatase 2C effector gene family

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