Shoji Yonebayashi scite author profile

A major component of the large genomes of higher plants and vertebrates comprises transposable elements and their derivatives, which potentially reduce the stability of the genome. It has been proposed that methylation of cytosine residues may suppress transposition, but experimental evidence for this has been limited. Reduced methylation of repeat sequences results from mutations in the Arabidopsis gene DDM1 (decrease in DNA methylation), which encodes a protein similar to the chromatin-remodelling factor SWI2/SNF2 (ref. 7). In the ddm1-induced hypomethylation background, silent repeat sequences are often reactivated transcriptionally, but no transposition of endogenous elements has been observed. A striking feature of the ddm1 mutation is that it induces developmental abnormalities by causing heritable changes in other loci. Here we report that one of the ddm1-induced abnormalities is caused by insertion of CAC1, an endogenous CACTA family transposon. This class of Arabidopsis elements transposes and increases in copy number at high frequencies specifically in the ddm1 hypomethylation background. Thus the DDM1 gene not only epigenetically ensures proper gene expression, but also stabilizes transposon behaviour, possibly through chromatin remodelling or DNA methylation.

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Identification and fine mapping of a major quantitative trait locus originating from wild rice, controlling cold tolerance at the seedling stage

Koseki¹,

Kitazawa²,

Yonebayashi³

et al. 2010

Mol Genet Genomics

103

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Cold tolerance at the seedling stage (CTSS) is an important trait affecting stable rice production in temperate climates and areas of high elevation. In this study, 331 single nucleotide polymorphism (SNP) markers were developed and used along with phenotypic evaluation to identify quantitative trait loci (QTLs) associated with CTSS from a mapping population of 184 F(2) plants derived from a cold tolerant wild rice, W1943 (Oryza rufipogon), and a sensitive indica cultivar, Guang-lu-ai 4 (GLA4). Three QTLs were detected on chromosomes 3, 10 and 11. A major locus, qCtss11 (QTL for cold tolerance at seedling stage), was located on the long arm of chromosome 11 explaining about 40% of the phenotypic variation. Introduction of the W1943 allele of qCtss11 to the GLA4 genetic background increased CTSS. Based on the phenotypic and genotypic assessment of advanced backcross progenies, qCtss11 was dissected as a single Mendelian factor. A high-resolution genetic map was constructed using 23 markers across the qCtss11 locus. As a result, qCtss11 was fine mapped to a 60-kb candidate region defined by marker AK24 and GP0030 on chromosome 11, in which six genes were annotated. Expression and resequence analyses of the six candidates supported the hypothesis that Os11g0615600 and/or Os11g0615900 are causal gene(s) of the CTSS.

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Shoji Yonebayashi

Mobilization of transposons by a mutation abolishing full DNA methylation in Arabidopsis

Identification and fine mapping of a major quantitative trait locus originating from wild rice, controlling cold tolerance at the seedling stage

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