Literature DB >> 20639447

Repeated polyploidy drove different levels of crossover suppression between homoeologous chromosomes in Brassica napus allohaploids.

Marta Cifuentes1, Frédérique Eber, Marie-Odile Lucas, Maryse Lode, Anne-Marie Chèvre, Eric Jenczewski.   

Abstract

Allopolyploid species contain more than two sets of related chromosomes (homoeologs) that must be sorted during meiosis to ensure fertility. As polyploid species usually have multiple origins, one intriguing, yet largely underexplored, question is whether different mechanisms suppressing crossovers between homoeologs may coexist within the same polyphyletic species. We addressed this question using Brassica napus, a young polyphyletic allopolyploid species. We first analyzed the meiotic behavior of 363 allohaploids produced from 29 accessions, which represent a large part of B. napus genetic diversity. Two main clear-cut meiotic phenotypes were observed, encompassing a twofold difference in the number of univalents at metaphase I. We then sequenced two chloroplast intergenic regions to gain insight into the maternal origins of the same 29 accessions; only two plastid haplotypes were found, and these correlated with the dichotomy of meiotic phenotypes. Finally, we analyzed genetic diversity at the PrBn locus, which was shown to determine meiotic behavior in a segregating population of B. napus allohaploids. We observed that segregation of two alleles at PrBn could adequately explain a large part of the variation in meiotic behavior found among B. napus allohaploids. Overall, our results suggest that repeated polyploidy resulted in different levels of crossover suppression between homoeologs in B. napus allohaploids.

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Year:  2010        PMID: 20639447      PMCID: PMC2929116          DOI: 10.1105/tpc.109.072991

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  54 in total

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5.  Detection and effects of a homeologous reciprocal transposition in Brassica napus.

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9.  Genetic regulation of meiotic cross-overs between related genomes in Brassica napus haploids and hybrids.

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Journal:  Plant Cell       Date:  2009-02-03       Impact factor: 11.277

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Authors:  Charlotte J Allender; Graham J King
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  24 in total

1.  Cytoplasmic and genomic effects on meiotic pairing in Brassica hybrids and allotetraploids from pair crosses of three cultivated diploids.

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Review 2.  Meiosis, unreduced gametes, and parthenogenesis: implications for engineering clonal seed formation in crops.

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5.  Evolutionary genomics of miniature inverted-repeat transposable elements (MITEs) in Brassica.

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7.  Homoeologous Chromosome Sorting and Progression of Meiotic Recombination in Brassica napus: Ploidy Does Matter!

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10.  Cytoplasmic and genomic effects on non-meiosis-driven genetic changes in Brassica hybrids and allotetraploids from pairwise crosses of three cultivated diploids.

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