Microspore derived population developed from an inter-specific hybrid (Brassica oleracea × B. carinata) through a modified protocol provides insight into B genome derived black rot resistance and inter-genomic interaction

Inter-specific hybridization between different species of Brassicas is widely practiced to broaden the genetic base and inter-genomic transfer of desirable traits. A large population of inter-specific hybrids ( B. oleracea  ×  B. carinata ) were developed through direct embryo culture for introgress...

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Published in:Plant cell, tissue and organ culture tissue and organ culture, 2021-05, Vol.145 (2), p.417-434
Main Authors: Bhatia, Reeta, Sharma, Kanika, Parkash, Chander, Pramanik, Achintya, Singh, Dinesh, Singh, Saurabh, Kumar, Raj, Dey, S. S.
Format: Article
Language:English
Subjects:
Abnormalities
Biomedical and Life Sciences
Black rot
Brassica
Brassica oleracea
Chromosome deletion
Chromosomes
Embryos
Gametes
Genetics
Genomes
Genomics
Hybridization
Hybrids
Life Sciences
Meiosis
Microspores
Original Article
Plant Genetics and Genomics
Plant Pathology
Plant Physiology
Plant Sciences
Ploidy
Polyamines
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Summary:Inter-specific hybridization between different species of Brassicas is widely practiced to broaden the genetic base and inter-genomic transfer of desirable traits. A large population of inter-specific hybrids ( B. oleracea  ×  B. carinata ) were developed through direct embryo culture for introgression of black rot resistance from B into C sub-genome of Brassicas . Inter-specific hybrids were resistant to race 1 and 4 of black rot. A large set of microspores derived (MD) plants were developed using partially fertile inter-specific hybrids for the first time using a modified culture density, temperature shock treatment and polyamine supplement. Forty-three B and 323 C sub-genome specific SSRs were analysed in 117 MD plants along with their ploidy analysis. Frequent occurrence of unreduced and B. carinata like gametes and large number of anueploids in the MD plants was because of single set of B sub-genome (BCC) in the mother plant. Aneuploids for C sub-genome indicate meiotic abnormality in paring between C sub-genome of B. oleracea and B. carinata . Role of B7 and B5 for resistance to Xcc1 and B6 and B2 for resistance to Xcc4 was established. The unique MD population developed will be instrumental in broadening the genetic base of B. oleracea and studying the genetics for various traits using chromosome addition/deletion lines and aneuploids. Key Message Microspore derived plants from a sesquidiploid ( Brassica oleracea × B. carinata ) elucidates B genome conferred black rot resistance ( Xcc1 and Xcc4 ) and meiotic abnormalities.
ISSN:0167-6857
1573-5044
DOI:10.1007/s11240-021-02018-1