Comparative genomic in situ hybridization (cGISH) analysis of the genomic relationships among Sinapis arvensis, Brassica rapa and Brassica nigra.

To further understand the relationships between the SS genome of Sinapis arvensis and the AA, BB genomes in Brassica, genomic DNA of Sinapis arvensis was hybridized to the metaphase chromosomes of Brassica nigra (BB genome), and the metaphase chromosomes and interphase nucleus of Brassica rapa (AA genome) by comparative genomic in situ hybridization (cGISH). As a result, every chromosome of B. nigra had signals along the whole chromosomal length. However, only half of the condensed heterochromatic areas in the interphase nucleus and the chromosomes showed rich signals in Brassica rapa. Interphase nucleus and the metaphase chromosomes of S. arvensis were simultaneously hybridized with digoxigenin-labeled genomic DNA of B. nigra and biotin-labeled genomic DNA of B. rapa. Signals of genomic DNA of B. nigra hybridized throughout the length of all chromosomes and all the condensed heterochromatic areas in the interphase nucleus, except chromosome 4, of which signals were weak in centromeric regions. Signals of the genomic DNA of B. rapa patterned the most areas of ten chromosomes and ten condensed heterochromatic areas, others had less signals. The results showed that the SS genome had homology with AA and BB genomes, but the homology between SS genome and AA genome was clearly lower than that between the SS genome and BB genome.

Mao S ，Han Y ，Wu X ，An T ，Tang J ，Shen J ，Li Z ... -  《HEREDITAS》

Characterization of the centromere and peri-centromere retrotransposons in Brassica rapa and their distribution in related Brassica species.

Lim KB ，Yang TJ ，Hwang YJ ，Kim JS ，Park JY ，Kwon SJ ，Kim J ，Choi BS ，Lim MH ，Jin M ，Kim HI ，de Jong H ，Bancroft I ，Lim Y ，Park BS ... -  《PLANT JOURNAL》

Sinapis genomes provide insights into whole-genome triplication and divergence patterns within tribe Brassiceae.

Sinapis alba and Sinapis arvensis are mustard crops within the Brassiceae tribe of the Brassicaceae family, and represent an important genetic resource for crop improvement. We performed the de novo assembly of Brassica nigra, S. alba, and S. arvensis, and conducted comparative genomics to investigate the pattern of genomic evolution since an ancient whole-genome triplication event. Both Sinapis species retained evidence of the Brassiceae whole-genome triplication approximately 20.5 million years ago (Mya), with subgenome dominance observed in gene density, gene expression, and selective constraint. While S. alba diverged from the ancestor of Brassica and Raphanus at approximately 12.5 Mya, the divergence time of S. arvensis and B. nigra was approximately 6.5 Mya. S. arvensis and B. nigra had greater collinearity compared with their relationship to either Brassica rapa or Brassica oleracea. Two chromosomes of S. alba (Sal03 and Sal08) were completely collinear with two ancestral chromosomes proposed in the Ancestral Crucifer Karyotype (ACK) genomic block model, the first time this has been observed in the Brassiceae. These results are consistent with S. alba representing a relatively ancient lineage of the species evolved from the common ancestor of tribe Brassiceae, and suggest that the phylogeny of the Brassica and Sinapis genera requires some revision. Our study provides new insights into the genome evolution and phylogenetic relationships of Brassiceae and provides genomic information for genetic improvement of these plants.

Yang T ，Cai B ，Jia Z ，Wang Y ，Wang J ，King GJ ，Ge X ，Li Z ... -  《-》

Sequence-level comparative analysis of the Brassica napus genome around two stearoyl-ACP desaturase loci.

Cho K ，O'Neill CM ，Kwon SJ ，Yang TJ ，Smooker AM ，Fraser F ，Bancroft I ... -  《-》

Molecular characterisation and chromosomal localisation of a telomere-like repetitive DNA sequence highly enriched in the C genome of Brassica.

The aim of this work was to find C genome specific repetitive DNA sequences able to differentiate the homeologous A (B. rapa) and C (B. oleracea) genomes of Brassica, in order to assist in the physical identification of B. napus chromosomes. A repetitive sequence (pBo1.6) highly enriched in the C genome of Brassica was cloned from B. oleracea and its chromosomal organisation was investigated through fluorescent in situ hybridisation (FISH) in B. oleracea (2n = 18, CC), B. rapa (2n = 20, AA) and B. napus (2n = 38, AACC) genomes. The sequence was 203 bp long with a GC content of 48.3%. It showed up to 89% sequence identity with telomere-like DNA from many plant species. This repeat was clearly underrepresented in the A genome and the in situ hybridisation showed its B. oleracea specificity at the chromosomal level. Sequence pBo1.6 was localised at interstitial and/or telomeric/subtelomeric regions of all chromosomes from B. oleracea, whereas in B. rapa no signal was detected in most of the cells. In B. napus 18 to 24 chromosomes hybridised with pBo1.6. The discovery of a sequence highly enriched in the C genome of Brassica opens the opportunity for detailed studies regarding the subsequent evolution of DNA sequences in polyploid genomes. Moreover, pBo1.6 may be useful for the determination of the chromosomal location of transgenic DNA in genetically modified oilseed rape.

Galvão Bezerra dos Santos K ，Becker HC ，Ecke W ，Bellin U ... -  《-》