Evolutionary relationships of the chinese hamster X chromosome and autosomes: a comparison using solution hybridization techniques

The evolutionary relationships of Chinese hamster X chromosome and autosome DNA sequences were compared by solution hybridization techniques. Chinese hamster X chromosome tracer was prepared by radiolabeling DNA from chromosomes isolated by fluorescence-activated sorting. Radiolabeled Chinese hamste...

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Bibliographic Details
Published in:Chromosoma 1987-01, Vol.95 (3), p.189-196
Main Authors: KUSEWITT, D. F, JETT, J. H, GRIFFITH, J. K
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Biological Evolution
Cell Line
Chromosomes
Cricetinae - genetics
Cricetulus - genetics
DNA - genetics
DNA - isolation & purification
Female
Fundamental and applied biological sciences. Psychology
Genetics of eukaryotes. Biological and molecular evolution
Humans
Mesocricetus - genetics
Nucleic Acid Hybridization
Rabbits - genetics
Rats - genetics
Species Specificity
X Chromosome
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Summary:The evolutionary relationships of Chinese hamster X chromosome and autosome DNA sequences were compared by solution hybridization techniques. Chinese hamster X chromosome tracer was prepared by radiolabeling DNA from chromosomes isolated by fluorescence-activated sorting. Radiolabeled Chinese hamster total genomic DNA, approximately 90% of which is of autosome origin, was used as autosome tracer. Each tracer was mixed with excess driver DNA of Chinese hamster, Syrian hamster, rat, rabbit, cat, cow, or human origin. Reaction mixtures were melted and allowed to reassociate to an equivalent CoT of 12,000, under conditions which permitted 35% mismatch in DNA duplexes. Both the extent of duplex formation (the normalized percentage hybridization or NPH) and the average thermal stability of the duplexes formed (melting temperature or Tm) were measured; these values were used to compare the evolutionary relatedness of tracer and driver DNAs. The pattern of evolutionary relatedness revealed by comparing either the Tm or NPH values obtained with different drivers was the same for X chromosome and autosome DNA and was consistent with the phylogeny of the species examined. Although NPH and Tm values for X chromosome and autosome tracers differed, differences fell within the range of experimental error. The results of these studies provide no evidence for differential conservation of Chinese hamster X chromosome sequences, suggesting that the constraints on the mammalian X chromosome which act to maintain its gene linkage group intact do not markedly reduce the extent to which its sequences diverge during evolution.
ISSN:0009-5915
1432-0886
DOI:10.1007/BF00330350