Ruth Rofe scite author profile

G-banding data are presented for a wide range of Australian marsupial species and one South American species, all of which have 2n= 14. The chromosome banding pattern in each of these species is very similar. Variations between species can be explained by structural changes internal to individual chromosomes. This evidence favors the hypothesis of a conserved complement common to both Australian and American marsupials and underlies the dominant role of chromosome fission in the evolution of this group.

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Karyotypic variation in the Australian Gekko Phyllodactylus marmoratus (Gray) (Gekkonidae: Reptilia)

King

Rofe

1976

Chromosoma

132

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The gekko Phyllodactylus marmoratus has at least three distinct chromosome races; 2n=39, 2n=26 ZZ/ZW and 2n=34. Specimens from these races are morphologically distinguishable, have a degree of habitat specialization and occur in a defined distribution. The 2n=36 race found in Eastern Australia is the presumed primordial type. The 2n=34 race occurs in Western Australia and is regarded as a fusion derivative. The 2n=36 ZZ/ZW race, which is only found on the Murray River system in Eastern Australia has a heteromorphic sex chromosome system present in the female. Giemsa banding suggests that this heteromorphism is the result of a pericentric inversion.

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Characterizing the chromosomes of the Australian model marsupial Macropus eugenii (tammar wallaby)

et al. 2005

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Marsupials occupy a phylogenetic middle ground that is very valuable in genome comparisons of mammal and other vertebrate species. For this reason, whole genome sequencing is being undertaken for two distantly related marsupial species, including the model kangaroo species Macropus eugenii (the tammar wallaby). As a first step towards the molecular characterization of the tammar genome, we present a detailed description of the tammar karyotype, report the development of a set of molecular anchor markers and summarize the comparative mapping data for this species.

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A repetitive DNA sequence common to the different B chromosomes of the genus Brachycome

et al. 1997

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Dot-like micro B chromosomes of Brachycome dichromosomatica were analysed for their sequence composition. Southern hybridization patterns of a total micro B probe to genomic DNA from plants with and without micro Bs demonstrated that the micro Bs shared sequences with the A chromosomes. In addition to telomere, rDNA and common A and B chromosome sequences, a new B-specific, highly methylated tandem repeat (Bdm29) was detected. After in situ hybridization with Bdm29 the entire micro B chromosome was labelled and clustering of the condensed micro Bs could be observed at interphase. A high number of Bdm29-like sequences were also found in the larger B chromosomes of B. dichromosomatica and in other Bs within the genus Brachycome.

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Chromosome evolution in marsupials

Rofe

Sharp

1987

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Ruth Rofe

G-banding evidence for a conserved complement in the Marsupialia

Karyotypic variation in the Australian Gekko Phyllodactylus marmoratus (Gray) (Gekkonidae: Reptilia)

Characterizing the chromosomes of the Australian model marsupial Macropus eugenii (tammar wallaby)

A repetitive DNA sequence common to the different B chromosomes of the genus Brachycome

Chromosome evolution in marsupials

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