Comparative mapping of cattle chromosome 19: cytogenetic localization of 19 BAC clones.

Here we present the results of fluorescent in situ hybridization (FISH) mapping of a set of cattle BAC clones preselected for assignment on cattle chromosome 19 (BTA19). The BAC clones were anchored to human chromosome 17 (HSA17) sequences by BLASTn similarity search of cattle BAC-ends against the human genome sequence (NCBI build 33). Five blocks of homologous synteny were defined in the comparative map of BTA19 and HSA17 built with FISH data and the human genome coordinates. The positions for four evolutionary breakpoints in the bovine and human chromosomes were identified. Comparison of the FISH comparative map with previously published comparative RH, physical, and cytogenetic maps of BTA19 did not reveal major conflicts and allowed for the extension of the boundaries of homology between BTA19 and HSA17. Comparative analysis of HSA17, BTA19, and mouse chromosome 11 (MMU11) demonstrates that most likely mice retain the ancestral organization of the synteny group, and both cattle and human chromosomes underwent several major internal rearrangements after the divergence of Primates, Rodentia, and Cetartiodactyla.