Hiroshi Tanoue scite author profile

A new YAC (yeast artificial chromosome) physical map of the 12 rice chromosomes was constructed utilizing the latest molecular linkage map. The 1439 DNA markers on the rice genetic map selected a total of 1892 YACs from a YAC library. A total of 675 distinct YACs were assigned to specific chromosomal locations. In all chromosomes, 297 YAC contigs and 142 YAC islands were formed. The total physical length of these contigs and islands was estimated to 270 Mb which corresponds to approximately 63% of the entire rice genome (430 Mb). Because the physical length of each YAC contig has been measured, we could then estimate the physical distance between genetic markers more precisely than previously. In the course of constructing the new physical map, the DNA markers mapped at 0.0-cM intervals were ordered accurately and the presence of potentially duplicated regions among the chromosomes was detected. The physical map combined with the genetic map will form the basis for elucidation of the rice genome structure, map-based cloning of agronomically important genes, and genome sequencing.

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Physical mapping of the rice genome with YAC clones

Kurata

Umehara

Tanoue

et al. 1997

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A physical map with yeast artificial chromosome (YAC) clones covering 63% of the 12 rice chromosomes

Saji¹,

Umehara²,

Antonio³

et al. 2001

Génome

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Untitled

Kurata

Umehara²,

Tanoue³

et al. 1997

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Construction of a rice physical map covered by YAC clones which have been arranged over half of the genome length is presented here. A total of 1285 RFLP and RAPD markers almost evenly distributed on the rice genetic map could select 2974 YAC clones and 2443 clones of them were located on their original positions. Rice YACs carrying 350 kb average insert fragments of 2443 clones could cover 222 megabase length of the rice genome, corresponding to 52% of the whole genome size (4.3 Mb). Chromosome landing with many YAC clones on the high-density genetic map loci efficiently integrated the genetic map with a physical map. This is the first step to generate a comprehensive genome map of rice. An integrated genome map should be an indispensable tool to figure out genome structure as well as to clone trait genes by map-based cloning.

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Hiroshi Tanoue

Construction and characterization of a rice YAC library for physical mapping

A physical map with yeast artificial chromosome (YAC) clones covering 63% of the 12 rice chromosomes

Physical mapping of the rice genome with YAC clones

A physical map with yeast artificial chromosome (YAC) clones covering 63% of the 12 rice chromosomes

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