Physical map of two tammar wallaby chromosomes: a strategy for mapping in non-model mammals
Date
2008
Authors
Deakin, Janine
Koina, Edda
Waters, Paul
Doherty, Ruth
Patel, Vidushi
Delbridge, Margaret
Dobson, Bianca
Fong, James
Hu, Yanqiu
Van Den Huck, Cecilia
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Kluwer Academic Publishers
Abstract
Marsupials are especially valuable for comparative genomic studies of mammals. Two distantly related model marsupials have been sequenced: the South American opossum (Monodelphis domestica) and the tammar wallaby (Macropus eugenii), which last shared a common ancestor about 70 Mya. The six-fold opossum genome sequence has been assembled and assigned to chromosomes with the help of a cytogenetic map. A good cytogenetic map will be even more essential for assembly and anchoring of the two-fold wallaby genome. As a start to generating a physical map of gene locations on wallaby chromosomes, we focused on two chromosomes sharing homology with the human X, wallaby chromosomes X and 5. We devised an efficient strategy for mapping large conserved synteny blocks in non-model mammals, and applied this to generate dense maps of the X and 'neo-X' regions and to determine the arrangement of large conserved synteny blocks on chromosome 5. Comparisons between the wallaby and opossum chromosome maps revealed many rearrangements, highlighting the need for comparative gene mapping between South American and Australian marsupials. Frequent rearrangement of the X, along with the absence of a marsupial XIST gene, suggests that inactivation of the marsupial X chromosome does not depend on a whole-chromosome repression by a control locus.
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Keywords: article; chromosome 5; chromosome inactivation; chromosome map; chromosome rearrangement; comparative gene mapping; controlled study; gene; gene location; gene locus; karyotype; mammal; marsupial; nonhuman; nucleotide sequence; opossum; priority journal; Comparative mapping; Genomics; Marsupial; X chromosome evolution
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Source
Chromosome Research
Type
Journal article
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2037-12-31
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