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@article{1126884, author = {Cheng, Feng and Mandáková, Terezie and Wu, Jian and Xie, Qi and Lysák, Martin and Wang, Xiaowu}, article_number = {5}, doi = {http://dx.doi.org/10.1105/tpc.113.110486}, keywords = {CHROMOSOME-NUMBER REDUCTION; ARABIDOPSIS-THALIANA; SPECIES BRASSICACEAE; KARYOTYPE EVOLUTION; RAPHANUS-SATIVUS; SEQUENCE; PHYLOGENY; MAP; BLOCKS; RECONSTRUCTION}, language = {eng}, issn = {1040-4651}, journal = {Plant Cell}, title = {Deciphering the Diploid Ancestral Genome of the Mesohexaploid Brassica rapa}, url = {http://www.plantcell.org/content/early/2013/05/06/tpc.113.110486.abstract}, volume = {25}, year = {2013} }
TY - JOUR ID - 1126884 AU - Cheng, Feng - Mandáková, Terezie - Wu, Jian - Xie, Qi - Lysák, Martin - Wang, Xiaowu PY - 2013 TI - Deciphering the Diploid Ancestral Genome of the Mesohexaploid Brassica rapa JF - Plant Cell VL - 25 IS - 5 SP - 1541-1554 EP - 1541-1554 PB - AMER SOC PLANT BIOLOGISTS SN - 10404651 KW - CHROMOSOME-NUMBER REDUCTION KW - ARABIDOPSIS-THALIANA KW - SPECIES BRASSICACEAE KW - KARYOTYPE EVOLUTION KW - RAPHANUS-SATIVUS KW - SEQUENCE KW - PHYLOGENY KW - MAP KW - BLOCKS KW - RECONSTRUCTION UR - http://www.plantcell.org/content/early/2013/05/06/tpc.113.110486.abstract L2 - http://www.plantcell.org/content/early/2013/05/06/tpc.113.110486.abstract N2 - The genus Brassica includes several important agricultural and horticultural crops. Their current genome structures were shaped by whole-genome triplication followed by extensive diploidization. The availability of several crucifer genome sequences, especially that of Chinese cabbage (Brassica rapa), enables study of the evolution of the mesohexaploid Brassica genomes from their diploid progenitors. We reconstructed three ancestral subgenomes of B. rapa (n = 10) by comparing its whole-genome sequence to ancestral and extant Brassicaceae genomes. All three B. rapa paleogenomes apparently consisted of seven chromosomes, similar to the ancestral translocation Proto-Calepineae Karyotype (tPCK; n = 7), which is the evolutionarily younger variant of the Proto-Calepineae Karyotype (n = 7). Based on comparative analysis of genome sequences or linkage maps of Brassica oleracea, Brassica nigra, radish (Raphanus sativus), and other closely related species, we propose a two-step merging of three tPCK-like genomes to form the hexaploid ancestor of the tribe Brassiceae with 42 chromosomes. Subsequent diversification of the Brassiceae was marked by extensive genome reshuffling and chromosome number reduction mediated by translocation events and followed by loss and/or inactivation of centromeres. Furthermore, via interspecies genome comparison, we refined intervals for seven of the genomic blocks of the Ancestral Crucifer Karyotype (n = 8), thus revising the key reference genome for evolutionary genomics of crucifers. ER -
CHENG, Feng, Terezie MANDÁKOVÁ, Jian WU, Qi XIE, Martin LYSÁK and Xiaowu WANG. Deciphering the Diploid Ancestral Genome of the Mesohexaploid Brassica rapa. \textit{Plant Cell}. AMER SOC PLANT BIOLOGISTS, 2013, vol.~25, No~5, p.~1541-1554. ISSN~1040-4651. Available from: https://dx.doi.org/10.1105/tpc.113.110486.
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