Osamu Kamijima
Kobe University
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Featured researches published by Osamu Kamijima.
Euphytica | 1996
Akito Kaga; Norihiko Tomooka; Yoshinobu Egawa; Kazuyoshi Hosaka; Osamu Kamijima
SummaryThe genetic variation among 23 accessions of 5 species in the subgenus Ceratotropis, genus Vigna, were investigated by random amplified polymorphic DNA (RAPD) analysis. A total of 404 fragments amplified with 24 primers were scored and analyzed by cluster analysis. The accessions used were separated into two main groups with an average of 70% differences. Within the main groups, five subgroups were recognized, which are in complete agreement with taxonomic species. Wild forms were always grouped with their most closely related cultivated forms and they showed variation in each species. The largest intraspecific variation was found in V. radiata (mungbean), in which wild forms (V. radiata var. sublobata) were highly different from each other and from cultivated forms. V. angularis (adzuki bean) showed the least variation and thus, was probably differentiated in relatively recent times.
Theoretical and Applied Genetics | 2000
Akito Kaga; Takashige Ishii; K. Tsukimoto; E. Tokoro; Osamu Kamijima
Abstract A genetic linkage map was developed with 86 F2 plants derived from an interspecific cross between azuki bean (Vigna angularis, 2n=2x=22) and rice bean (V. umbellata, 2n=2x=22). In total, 14 linkage groups, each containing more than 4 markers, were constructed with one phenotypic, 114 RFLP and 74 RAPD markers. The total map size was 1702 cM, and the average distance between markers was 9.7 cM. The loci showing significant deviation from the expected ratio clustered in several linkage groups. Most of the skewed loci were due to the predominance of rice bean alleles. The azuki-rice bean linkage map was compared with other available maps of Vigna species in subgenus Ceratotropis. Based on the lineage of the common mapped markers, 7 and 16 conserved linkage blocks were found in the interspecific map of azuki bean ×V. nakashimae and mungbean map, respectively. Although the present map is not fully saturated, it may facilitate gene tagging, QTL mapping and further useful gene transfer for azuki bean breeding.
Theoretical and Applied Genetics | 1996
Akito Kaga; M. Ohnishi; Takashige Ishii; Osamu Kamijima
A genetic linkage map of azuki bean (Vigna angularis) was constructed with molecular and morphological markers using an F2 population of an interspecific cross between azuki bean and its wild relative, V. nakashimae. In total, 132 markers (108 RAPD, 19 RFLP and five morphological markers) were mapped in 14 linkage groups covering 1250 cM; ten remained unlinked. The clusters of markers showing distorted segregation were found in linkage groups 2, 8 and 12. By comparing the azuki linkage map with those of mungbean and cowpea, using 20 RFLP common markers, some sets of the markers were found to belong to the same linkage groups of the respective maps, indicating that these linkage blocks are conserved among the three Vigna species. This map provides a tool for markerassisted selection and for studies of genome organization in Vigna species.
Plant Molecular Biology Reporter | 2001
Nobuyuki Ikeda; Nonnatus S. Bautista; Tetsuya Yamada; Osamu Kamijima; Takashige Ishii
We prevent an ultra-simple DNA extraction method for microsatellite analysis of rice. Each extraction requires only one microtube, one disposable pipette tip, TE buffer and few pieces (about 5 mm) of rice leaf tissue. This is sufficient for 200 PCR reactions. The extract can be kept in the freezer for long-term storage. Also, DNA can be extracted from 200–300 individuals in a few hours. These features enabled us to perform rapid largescale seedling genotyping required for marker-assisted selection. We have also examined the applicability of this method for other PCR-based markers: RAPDs, nuclear STS, chloroplast STS and chloroplast microsatellites.
Euphytica | 2006
Noriaki Aoki; Takayuki Umemoto; Shinya Yoshida; Takashige Ishii; Osamu Kamijima; Ushio Matsukura; Naoyoshi Inouchi
The amount of long chains (LC) of amylopectin in high-amylose rice is thought to be one of the important determinants of its quality when cooked. A wide range of differences in LC content have been reported in rice varieties, which can be clearly divided into four classes based on LC and apparent amylose content: namely, amylose and LC-free, low or medium-amylose and low-LC, high-amylose and medium-LC, high-amylose and high-LC. However, genetic factors controlling LC content have not been fully understood. Here, we performed quantitative trait loci (QTL) analysis of LC content using 157 recombinant inbred lines (RILs) derived from a cross of a low-LC cultivar, Hyogokitanishiki, and a high-LC line, Hokuriku 142. By analyzing randomly selected 15 RILs, it was shown that high LC content (≥11%) was associated with high setback viscosity (≥200 RVU), and that low LC (≤ 3%) was associated with low setback viscosity (≤ 130 RVU), as measured by a Rapid Visco Analyzer. With setback viscosity as an indicator for LC content, QTL analysis was conducted using 60 DNA markers including a CAPS marker that distinguished Wxa and Wxb alleles coding for granule-bound starch synthase I (GBSSI or Wx protein), the enzyme working for amylose biosynthesis. Only one QTL with a peak log of likelihood score at the wx locus was detected, and no line showing setback viscosity corresponding to the medium-LC class appeared. The fact that wx mutants of Hokuriku 142 lacked LC in their rice starch supports the view that the functional Wx allele is indispensable for LC synthesis in addition to amylose synthesis in rice endosperm. We suggest three possible reasons why no line with medium-LC content was observed. First, the locus (loci) responsible for generation of medium-LC may be located very close to the wx locus and not able to be dissected by the population and DNA markers we used. Second, there may be special QTLs for medium-LC cultivars that do not exist in low- or high-LC cultivars. Third, medium-LC cultivars may have an as-yet unidentified Wx allele with lower capability in LC synthesis compared to the Wx allele in high-LC cultivars.
Euphytica | 1998
Tetsuya Yamada; Kazuyoshi Hosaka; Kumi Nakagawa; Noriyo Kaide; Shuji Misoo; Osamu Kamijima
Eleven somatic hybrids (2n = 68 to 74) obtained between S. tuberosum ssp. tuberosum cv. Dejima (2n = 48) and ATDH-1 (2n = 24), an anther-culture-derived dihaploid of S. acaule (Yamada et al., 1997), were characterized by nuclear RFLP markers using 49 single-copy DNA probes distributed throughout the potato genome (2 to 6 probes per chromosome). One of the somatic hybrids, DA8-2, had 72 chromosomes and all the Dejima- and ATDH-1-specific markers (124 and 103 bands, respectively), suggesting the presence of a whole set of both parental chromosomes. The other somatic hybrids lost varying numbers of markers up to seventeen. The pattern of the loss of markers indicated the elimination of five chromosomes among four somatic hybrids. A nucleolar organizer region of chromosome 2 was often eliminated in the somatic hybrids. The somatic hybrids studied here had higher frequencies of multivalent formation than the S. tuberosum parent. They had reasonably good seed set when pollinated with S. tuberosum pollen. Hence, homoeologous recombination between S. acaule and S. tuberosum chromosomes is possible and useful traits from S. acaule may be transferred to the S. tuberosum gene pool.
The Japanese Journal of Genetics | 1992
Shuichi Fukuoka; Kazuyoshi Hosaka; Osamu Kamijima
Breeding Science | 2002
Shinya Yoshida; Masaru Ikegami; Junko Kuze; Keiko Sawada; Zentaro Hashimoto; Takashige Ishii; Chiharu Nakamura; Osamu Kamijima
Genes & Genetic Systems | 2001
Nonnatus S. Bautista; Renando Solis; Osamu Kamijima; Takashige Ishii
Genes & Genetic Systems | 1996
Takashige Ishii; Toshitsugu Nakano; Hideo Maeda; Osamu Kamijima