Evidence for Different Origin of Sex Chromosomes in Snakes, Birds, and Mammals and Step-Wise Differentiation of Snake Sex Chromosomes

All snake species exhibit genetic sex determination with the ZZ/ZW type of sex chromosomes. To investigate the origin and evolution of snake sex chromosomes, we constructed, by FISH, a cytogenetic map of the Japanese four-striped rat snake (Elaphe quadrivirgata) with 109 cDNA clones. Eleven of the 1...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2006-11, Vol.103 (48), p.18190-18195
Main Authors: Matsubara, Kazumi, Tarui, Hiroshi, Toriba, Michihisa, Yamada, Kazuhiko, Nishida-Umehara, Chizuko, Agata, Kiyokazu, Matsuda, Yoichi
Format: Article
Language:English
Subjects:
Animals
Asian People
Aves
Base Sequence
Biological Evolution
Biological Sciences
Birds
Birds - genetics
Chickens
Chromosomes
Cloning, Molecular
Complementary DNA
Cytogenetics
DNA
Elaphe
Evolutionary biology
Genes
High Mobility Group Proteins - genetics
Humans
In Situ Hybridization, Fluorescence
Karyotyping
Mammals
Mammals - genetics
Molecular Sequence Data
Origin of Life
Physical Chromosome Mapping
Python molurus
Sex chromosomes
Sex Chromosomes - genetics
Snakes
Snakes - genetics
SOX9 Transcription Factor
Transcription Factors - genetics
Trimeresurus flavoviridis
W chromosome
Z chromosome
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Summary:All snake species exhibit genetic sex determination with the ZZ/ZW type of sex chromosomes. To investigate the origin and evolution of snake sex chromosomes, we constructed, by FISH, a cytogenetic map of the Japanese four-striped rat snake (Elaphe quadrivirgata) with 109 cDNA clones. Eleven of the 109 clones were localized to the Z chromosome. All human and chicken homologues of the snake Z-linked genes were located on autosomes, suggesting that the sex chromosomes of snakes, mammals, and birds were all derived from different autosomal pairs of the common ancestor. We mapped the 11 Z-linked genes of E. quadrivirgata to chromosomes of two other species, the Burmese python (Python molurus bivittatus) and the habu (Trimeresurus flavoviridis), to investigate the process of W chromosome differentiation. All and 3 of the 11 clones were localized to both the Z and W chromosomes in P. molurus and E. quadrivirgata, respectively, whereas no cDNA clones were mapped to the W chromosome in T. flavoviridis. Comparative mapping revealed that the sex chromosomes are only slightly differentiated in P. molurus, whereas they are fully differentiated in T. flavoviridis, and E. quadrivirgata is at a transitional stage of sex-chromosome differentiation. The differentiation of sex chromosomes was probably initiated from the distal region on the short arm of the protosex chromosome of the common ancestor, and then deletion and heterochromatization progressed on the sex-specific chromosome from the phylogenetically primitive boids to the more advanced viperids.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0605274103