期刊
BREEDING SCIENCE
卷 61, 期 5, 页码 437-444出版社
JAPANESE SOC BREEDING
DOI: 10.1270/jsbbs.61.437
关键词
Glycine max; soybean; legume evolution; polyploidy; SoyBase; Legume Information System; Legumebase; Phytozome
The soybean genome assembly has been available since the end of 2008. Significant features of the genome include large, gene-poor, repeat-dense pericentromeric regions, spanning roughly 57% of the genome sequence; a relatively large genome size of similar to 1.15 billion bases; remnants of a genome duplication that occurred similar to 13 million years ago (Mya); and fainter remnants of older polyploidies that occurred similar to 58 Mya and >130 Mya. The genome sequence has been used to identify the genetic basis for numerous traits, including disease resistance, nutritional characteristics, and developmental features. The genome sequence has provided a scaffold for placement of many genomic feature elements, both from within soybean and from related species. These may be accessed at several websites, including http://www.phytozome.net, http://soybase.org, http://comparative-legumes.org, and http://www.legumebase.brc.miyazaki-u.ac.jp. The taxonomic position of soybean in the Phaseoleae tribe of the legumes means that there are approximately two dozen other beans and relatives that have undergone independent domestication, and which may have traits that will be useful for transfer to soybean. Methods of translating information between species in the Phaseoleae range from design of markers for marker assisted selection, to transformation with Agrobacterium or with other experimental transformation methods.
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