Motoyuki Kunii scite author profile

Motoyuki Kunii

2Publications

79Citation Statements Received

87Citation Statements Given

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103

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Hokkaido University

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Reconstruction of putative DNA virus from endogenous rice tungro bacilliform virus-like sequences in the rice genome: implications for integration and evolution

et al. 2004

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Background: Plant genomes contain various kinds of repetitive sequences such as transposable elements, microsatellites, tandem repeats and virus-like sequences. Most of them, with the exception of virus-like sequences, do not allow us to trace their origins nor to follow the process of their integration into the host genome. Recent discoveries of virus-like sequences in plant genomes led us to set the objective of elucidating the origin of the repetitive sequences. Endogenous rice tungro bacilliform virus (RTBV)-like sequences (ERTBVs) have been found throughout the rice genome. Here, we reconstructed putative virus structures from RTBV-like sequences in the rice genome and characterized to understand evolutionary implication, integration manner and involvements of endogenous virus segments in the corresponding disease response.

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Characterization of the repetitive sequences in a 200-kb region around the rice waxy locus: Diversity of transposable elements and presence of veiled repetitive sequences.

et al. 2002

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Repetitive genomic sequences might have various structural features and properties distinct from those of the known transposable elements (TE). Here, the content and properties of the repetitive sequences present in a 200-kb region around the rice waxy locus were analyzed using the available rice genomic database. In our previous Southern blotting analysis, 70% of the segments in this region showed smeared patterns, but according to the present database analysis, the proportion of repetitive sequences in this region was only 15%. The repetitive segments in this 200-kb region comprised 75 repetitive sequences that we classified into 46 subfamilies: 21 subfamilies were known TEs or repetitive sequences and 25 subfamilies consisted of newly identified TEs or novel types of repetitive sequences. The region contains no long terminal repeat (LTR) retrotransposable elements, but miniature inverted repeat transposable elements (MITEs) constituted a major class among the elements identified. These MITEs showed remarkable structural divergence: 12 elements were found to be new members of known MITE superfamilies, while five elements had novel terminal structures, and did not belong to any known TE families. Interestingly, about 10% of the repetitive sequences, including virus-like sequences did not have any of the usual characteristics of TEs, suggesting that a certain proportion of repetitive sequences that might not share the transpositional mechanisms of known elements are dispersed in the compact rice genome.

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Motoyuki Kunii

Reconstruction of putative DNA virus from endogenous rice tungro bacilliform virus-like sequences in the rice genome: implications for integration and evolution

Characterization of the repetitive sequences in a 200-kb region around the rice waxy locus: Diversity of transposable elements and presence of veiled repetitive sequences.

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