Physical and linkage mapping of human chromosome 17 loci to dog chromosomes 9 and 5.

@article{Werner1997PhysicalAL,
  title={Physical and linkage mapping of human chromosome 17 loci to dog chromosomes 9 and 5.},
  author={Petra Werner and Michael G. Raducha and Ulana Prociuk and Paula S. Henthorn and Donald F. Patterson},
  journal={Genomics},
  year={1997},
  volume={42 1},
  pages={74-82}
}
Genome mapping in the dog is in its early stages. Here we illustrate an approach to combined physical and linkage mapping of type 1 anchor (gene) loci in the dog using information on syntenic homology from human and mouse, an interbreed cross/backcross, and a strategy for isolation of dog genomic clones containing both gene-specific sequences and simple sequence repeat polymorphisms. Eleven gene loci from human chromosome 17q (HSA17q) were mapped to the centromeric two-thirds of dog chromosome… CONTINUE READING

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Eight of these were also positioned on a linkage map spanning 38.6 cM. Based on combined fluorescence in situ hybridization and linkage mapping , the gene order on CFA9 is similar to that of the homologous genes on HSA17q and mouse chromosome 11 ( MMU11 ) , but in the dog the gene order is inverted with respect to the centromere .
Eight of these were also positioned on a linkage map spanning 38.6 cM. Based on combined fluorescence in situ hybridization and linkage mapping , the gene order on CFA9 is similar to that of the homologous genes on HSA17q and mouse chromosome 11 ( MMU11 ) , but in the dog the gene order is inverted with respect to the centromere .
Eight of these were also positioned on a linkage map spanning 38.6 cM. Based on combined fluorescence in situ hybridization and linkage mapping , the gene order on CFA9 is similar to that of the homologous genes on HSA17q and mouse chromosome 11 ( MMU11 ) , but in the dog the gene order is inverted with respect to the centromere .
Eight of these were also positioned on a linkage map spanning 38.6 cM. Based on combined fluorescence in situ hybridization and linkage mapping , the gene order on CFA9 is similar to that of the homologous genes on HSA17q and mouse chromosome 11 ( MMU11 ) , but in the dog the gene order is inverted with respect to the centromere .
Here we illustrate an approach to combined physical and linkage mapping of type 1 anchor ( gene ) loci in the dog using information on syntenic homology from human and mouse , an interbreed cross / backcross , and a strategy for isolation of dog genomic clones containing both gene - specific sequences and simple sequence repeat polymorphisms .
Physical and linkage mapping of human chromosome 17 loci to dog chromosomes 9 and 5 .
Physical and linkage mapping of human chromosome 17 loci to dog chromosomes 9 and 5 .
Here we illustrate an approach to combined physical and linkage mapping of type 1 anchor ( gene ) loci in the dog using information on syntenic homology from human and mouse , an interbreed cross / backcross , and a strategy for isolation of dog genomic clones containing both gene - specific sequences and simple sequence repeat polymorphisms .
Here we illustrate an approach to combined physical and linkage mapping of type 1 anchor ( gene ) loci in the dog using information on syntenic homology from human and mouse , an interbreed cross / backcross , and a strategy for isolation of dog genomic clones containing both gene - specific sequences and simple sequence repeat polymorphisms .
Here we illustrate an approach to combined physical and linkage mapping of type 1 anchor ( gene ) loci in the dog using information on syntenic homology from human and mouse , an interbreed cross / backcross , and a strategy for isolation of dog genomic clones containing both gene - specific sequences and simple sequence repeat polymorphisms .
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