Complex constitutive nature of Japanese upland rice, Oryza sativa L. |
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Authors: | Ryuji Ishikawa Yuko Harata Yasunori Tuchimine Mineo Senda Shinji Akada Takeo Harada Minoru Niizeki |
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Affiliation: | (1) Laboratory of Plant Breeding, Faculty of Agriculture, Hirosaki University, Hirosaki 036, Japan;(2) Gene Research Center, Hirosaki University, Hirosaki 036, Japan |
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Abstract: | Two rice ecotypes, the so-called lowland and upland populations, which carry different isozyme genotypes mostly at a single locus, are cultivated in Japan. The aim of this study was to examine the origin and the mechanism for keeping these genetic differences. The upland population is cultivated in upland fields and carries a different allele for a particular isozyme gene, Pgd-1, which has never been found in the lowland population. RFLP markers showed a weak trend for genetic differentiation between the two ecotypes. On the other hand, morphological, and physiological traits showed marked differences between the two ecotypes. Furthermore, based on the genotypic difference, two Japonica subgroups are defined in the upland population. Subgroup I is the minor group and carries key lowland characters, including the genotype for PGD. Subgroup II carries different traits and the genotype for PGD of the alternative subgroup. As an allelic difference for Pgd-1 is known to occur between the two ecospecies, Tropical (Tr) and Temperate (Tm) Japonicas, upland cultivars can be classified by diagnostic characters which distinguish a variety into Tr or Tm type. The upland population consists of three types of cultivars, Tr-, Tm- and intermediate-type. In contrast, the lowland population consists of a uniform Tm type Japonicas. As Japanese upland cultivars still have an isozyme allele specific to the Tr type, the upland population has a rather complex constitution which is presumably now being introgressed by lowland genetic material, but still represents a major difference at some genetic levels. Upland rice carries several stress-resistant genes which would be useful for lowland rice breeding. The genetic difference would be efficient for tagging upland specific traits by upland specific genetic markers. This revised version was published online in July 2006 with corrections to the Cover Date. |
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Keywords: | isozyme differentiation Oryza sativa rice upland rice |
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