Identification of Alien Chromosome/Chromatin Introgressions in Triticale × Wheat Derived Stable Lines Through Molecular Cytogenetic Analysis

Jeberson, M S; Chaudhary, H K; Chahota, R K; Ashokkumar, Kaliyaperumal

doi:10.62773/jcocs.v2i1.38

J. Current Opinion Crop Sci.,

2021

DOI: 10.62773/jcocs.v2i1.38

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Identification of Alien Chromosome/Chromatin Introgressions in Triticale × Wheat Derived Stable Lines Through Molecular Cytogenetic Analysis

M S Jeberson,

H K Chaudhary,

R K Chahota

et al.

Abstract: Molecular cytogenetic study was conducted for identifying rye chromosome/chromatin translocation, substitution and addition in 43 triticale x wheat derived stable lines (BC1F7 and F7 generations) six different crosses using FISH (Fluorescence in situ hybridization) and GISH (Genomic in situ hybridization) analyses with different probes. Rye chromosomes/chromatin was identified in 17 BC1F7 and 12 F7 lines by these two analyses. The GISH and FISH techniques worked satisfactorily for identifying the presence of r… Show more

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Cited by 2 publications

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Pyramiding wheat pre-harvest sprouting resistance genes in triticale breeding

Moullet¹,

Bermúdez²,

Fossati³

et al. 2022

Mol Breeding

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Pre -harvest sprouting (PHS) is an important problem in cereal production reducing yield and grain quality. After decades of improvement, triticale remains particularly susceptible to PHS but no resistance genes or QTLs were identified so far in this species. As wheat shares the A and B genomes with triticale, wheat PHS resistance genes can be introgressed into triticale genome by recombination after interspecific crosses. In this project, three PHS resistance genes have been transferred from wheat to triticale by marker-assisted interspecific crosses, followed by four backcrosses. The gene TaPHS1 from the 3AS chromosome of cultivar Zenkoujikomugi (Zen) and the TaMKK3 and TaQsd1, respectively located on the 4AL and 5BL chromosomes derived both from cultivar Aus1408, were pyramided in the triticale cultivar Cosinus. Only the TaPHS1 gene increases consistently the PHS resistance in triticale. The lack of efficacy of the other two genes, especially TaQsd1, could be the result of an imperfect linkage between the marker and the gene of interest. The introduction of PHS resistance genes did not alter agronomic nor disease resistance performances of triticale. This approach leads to two new, agronomically performant and PHS-resistant triticale cultivars. Today, two breeding triticale lines are ready to enter the official registration process.

show abstract

Pyramiding wheat pre-harvest sprouting resistance genes in triticale breeding

Moullet¹,

Bermúdez²,

Fossati³

et al. 2022

Mol Breeding

View full text Add to dashboard Cite

show abstract

Doubled haploid production in advanced back cross generations and molecular cytogenetic characterization of rye chromatin in triticale �wheat derived doubled haploid lines

Muniyandi¹,

Chaudhary²,

Chahota³

et al. 2021

Biocell

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Identification of Alien Chromosome/Chromatin Introgressions in Triticale × Wheat Derived Stable Lines Through Molecular Cytogenetic Analysis

Cited by 2 publications

References 14 publications

Pyramiding wheat pre-harvest sprouting resistance genes in triticale breeding

Pyramiding wheat pre-harvest sprouting resistance genes in triticale breeding

Doubled haploid production in advanced back cross generations and molecular cytogenetic characterization of rye chromatin in triticale �wheat derived doubled haploid lines

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