Sequence-level analysis of the diploidization process in the triplicated FLOWERING LOCUS C region of Brassica rapa

Tae Jin Yang, Jung Sun Kim, Soo Jin Kwon, Ki Byung Lim, Beom Soon Choi, Jin A. Kim, Mina Jin, Jee Young Park, Myung Ho Lim, Ho Il Kim, Yong Pyo Lim, Jason Jongho Kang, Jin Han Hong, Chang Bae Kim, Jong Bhak, Ian Bancroft, Beom Seok Park

Research output: Contribution to journalArticlepeer-review

210 Scopus citations

Abstract

Strong evidence exists for polyploidy having occurred during the evolution of the tribe Brassiceae. We show evidence for the dynamic and ongoing diploidization process by comparative analysis of the sequences of four paralogous Brassica rapa BAC clones and the homologous 124-kb segment of Arabidopsis thaliana chromosome 5. We estimated the times since divergence of the paralogous and homologous lineages. The three paralogous subgenomes of B. rapa triplicated 13 to 17 million years ago (MYA), very soon after the Arabidopsis and Brassica divergence occurred at 17 to 18 MYA. In addition, a pair of BACs represents a more recent segmental duplication, which occurred ∼0.8 MYA, and provides an exception to the general expectation of three paralogous segments within the B. rapa genome. The Brassica genome segments show extensive interspersed gene loss relative to the inferred structure of the ancestral genome, whereas the Arabidopsis genome segment appears little changed. Representatives of all 32 genes in the Arabidopsis genome segment are represented in Brassica, but the hexaploid complement of 96 has been reduced to 54 in the three subgenomes, with compression of the genomic region lengths they occupy to between 52 and 110 kb. The gene content of the recently duplicated B. rapa genome segments is identical, but intergenic sequences differ.

Original languageEnglish
Pages (from-to)1339-1347
Number of pages9
JournalPlant Cell
Volume18
Issue number6
DOIs
StatePublished - Jun 2006

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