biostudies-literatureUnknown66(5)Ichitani KA pair of complementary genes, <i>Hwc1-1</i> at <i>HWC1</i> locus and <i>Hwc2-1</i> at <i>HWC2</i> locus, cause a weakness phenomenon in rice. For this study, we performed haplotype analysis around the <i>HWC2</i> locus in two core collections comprising 119 accessions. We also examined reactions to phenol and <i>Xanthomonas oryzae</i> pv. <i>oryzae</i> (<i>Xoo</i>) Japanese race I. To elucidate the genetic relations among all accessions, we analyzed their banding patterns of 40 Indel markers covering the rice genome. The classification by Indel markers was almost consistent with that using 4,357 SNPs. The testcross with <i>Hwc1-1</i> carrier indicated that 37 accessions carried <i>Hwc2-1</i> allele, whereas 82 carried <i>hwc2-2</i> allele. Strong association between <i>HWC2</i> and <i>Ph</i> genes was observed. Based on 14 DNA markers around <i>HWC2</i> locus and <i>Ph</i> genotype, the 119 accessions were divided into 50 haplotypes. To examine the <i>HWC2</i> candidate chromosomal region specifically, the 'haplotype group' characterized by the six DNA markers closely linked with <i>HWC2</i> were analyzed. <i>Hwc2-1</i> carriers had the same haplotype group. Some <i>hwc2-2</i> haplotype groups were associated with resistance against the <i>Xoo</i> race. The relation between varietal differentiation and haplotypes around the <i>HWC2</i> locus was discussed, along with its breeding significance.Breeding science776-789https://www.ebi.ac.uk/biostudies/studies/S-EPMC5282758biostudies-literatureDistribution of <i>Hwc2-1</i>, a causal gene of a hybrid weakness, in the World Rice Core collection and the Japanese Rice mini Core collection: its implications for varietal differentiation and artificial selection.PMC5282758Kuboyama TIchitani KSato MTaura SfalseDistribution of <i>Hwc2-1</i>, a causal gene of a hybrid weakness, in the World Rice Core collection and the Japanese Rice mini Core collection: its implications for varietal differentiation and artificial selection.A pair of complementary genes, <i>Hwc1-1</i> at <i>HWC1</i> locus and <i>Hwc2-1</i> at <i>HWC2</i> locus, cause a weakness phenomenon in rice. For this study, we performed haplotype analysis around the <i>HWC2</i> locus in two core collections comprising 119 accessions. We also examined reactions to phenol and <i>Xanthomonas oryzae</i> pv. <i>oryzae</i> (<i>Xoo</i>) Japanese race I. To elucidate the genetic relations among all accessions, we analyzed their banding patterns of 40 Indel markers covering the rice genome. The classification by Indel markers was almost consistent with that using 4,357 SNPs. The testcross with <i>Hwc1-1</i> carrier indicated that 37 accessions carried <i>Hwc2-1</i> allele, whereas 82 carried <i>hwc2-2</i> allele. Strong association between <i>HWC2</i> and <i>Ph</i> genes was observed. Based on 14 DNA markers around <i>HWC2</i> locus and <i>Ph</i> genotype, the 119 accessions were divided into 50 haplotypes. To examine the <i>HWC2</i> candidate chromosomal region specifically, the 'haplotype group' characterized by the six DNA markers closely linked with <i>HWC2</i> were analyzed. <i>Hwc2-1</i> carriers had the same haplotype group. Some <i>hwc2-2</i> haplotype groups were associated with resistance against the <i>Xoo</i> race. The relation between varietal differentiation and haplotypes around the <i>HWC2</i> locus was discussed, along with its breeding significance.2016-01-01T00:00:00Z2016 Dec2024-11-06T22:53:30.791Z2019-03-27T02:35:19ZS-EPMC52827582816359410.1270/jsbbs.16071