TY - JOUR
T1 - Mitochondrial genome diversity in Beta vulgaris L. ssp. vulgaris (Leaf and Garden Beet Groups) and its implications concerning the dissemination of the crop
AU - Cheng, Dayou
AU - Yoshida, Yu
AU - Kitazaki, Kazuyoshi
AU - Negoro, Shinya
AU - Takahashi, Hiroyuki
AU - Xu, Dechang
AU - Mikami, Tetsuo
AU - Kubo, Tomohiko
PY - 2011/4
Y1 - 2011/4
N2 - Four mitochondrial minisatellites were used to study cytoplasmic diversity in leaf and garden beet germplasm resources. Eleven multi-locus haplotypes were identified, of which one (named mitochondrial minisatellite haplotype 4, hereafter min04) was associated with male-sterile Owen cytoplasm and two others (min09 and min18), with a normal fertile cytoplasm. European leaf beet germplasm exhibited the greatest haplotype diversity, with min09 and min18 predominating. In North African leaf beet accessions, only these two haplotypes were observed, making it likely that North African accessions were descended from European genotypes. The prevalence of min18 was also noted in leaf beet from the Middle East and western Asia. Such a pattern contrasts with that found in east Asian leaf beet where the two haplotypes were extremely rare. The geographical structure of the mitochondrial haplotypes allowed us to infer possible dissemination pathways of leaf beet. Additionally, we showed that mitochondrial genome diversity was low in garden beet germplasm, with min18 being highly predominant. An explanation of this limited diversity may lie in the geographically restricted origin of as well as relatively short cultivation histories of garden beet.
AB - Four mitochondrial minisatellites were used to study cytoplasmic diversity in leaf and garden beet germplasm resources. Eleven multi-locus haplotypes were identified, of which one (named mitochondrial minisatellite haplotype 4, hereafter min04) was associated with male-sterile Owen cytoplasm and two others (min09 and min18), with a normal fertile cytoplasm. European leaf beet germplasm exhibited the greatest haplotype diversity, with min09 and min18 predominating. In North African leaf beet accessions, only these two haplotypes were observed, making it likely that North African accessions were descended from European genotypes. The prevalence of min18 was also noted in leaf beet from the Middle East and western Asia. Such a pattern contrasts with that found in east Asian leaf beet where the two haplotypes were extremely rare. The geographical structure of the mitochondrial haplotypes allowed us to infer possible dissemination pathways of leaf beet. Additionally, we showed that mitochondrial genome diversity was low in garden beet germplasm, with min18 being highly predominant. An explanation of this limited diversity may lie in the geographically restricted origin of as well as relatively short cultivation histories of garden beet.
KW - Beta vulgaris
KW - Cytoplasmic male sterility
KW - Garden beet
KW - Leaf beet
KW - Plant mitochondria
KW - Variable number of tandem repeat
UR - http://www.scopus.com/inward/record.url?scp=79952989461&partnerID=8YFLogxK
U2 - 10.1007/s10722-010-9598-9
DO - 10.1007/s10722-010-9598-9
M3 - Article
AN - SCOPUS:79952989461
SN - 0925-9864
VL - 58
SP - 553
EP - 560
JO - Genetic Resources and Crop Evolution
JF - Genetic Resources and Crop Evolution
IS - 4
ER -