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XB-ART-53726
Evolution 1987 Jan 01;411:176-188. doi: 10.1111/j.1558-5646.1987.tb05780.x.
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EVOLUTIONARY INFERENCES FROM RESTRICTION MAPS OF MITOCHONDRIAL DNA FROM NINE TAXA OF XENOPUS FROGS.

Carr SM , Brothers AJ , Wilson AC .


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Restriction endonuclease cleavage maps were prepared by the double digestion method for mitochondrial DNAs (mtDNAs) purified from Xenopus borealis, X. clivii, X. fraseri, X. muelleri, X. ruwenzoriensis, X. vestitus, X. laevis victorianus, X. l. laevis, and a variant of X. laevis designated X. laevis "davis." An average of 21 cleavage sites per genome were mapped with 11 restriction endonucleases. Among the four invariant sites found are three conserved not only among the Xenopus mtDNAs tested but also among nearly all vertebrate mtDNAs examined to date. Two of these are Sac II sites in the 12S and 16S ribosomal RNA genes, and one is a Hpa I site in the gene for asparagine transfer RNA. These three sites permit the alignment and comparison of mtDNAs from different vertebrate classes. Although most of the differences observed among the Xenopus maps are attributable to point mutations causing gain or loss of restriction sites, the maps also differ by three large length mutations in or near the displacement loop. Phylogenetic analysis of 30 informative sites suggests that those members of the laevis species-group that have 36 chromosomes per somatic cell can be divided into three subgroups: 1) X. borealis, X. clivii, and perhaps X. fraseri (the "borealis" subgroup), 2) X. muelleri, and 3) the subspecies of X, laevis. The mtDNA of the hexaploid (2n = 108) species, X. ruwenzoriensis, is most similar to that of taxa in the latter two subgroups, which contrasts with the morphological similarity of this species to X. fraseri. X. ruwenzoriensis may be an allopolyploid with a mother (the contributor of the cytoplasmic mtDNA genome) on the X. laevis or X. muelleri lineage and a father on the X. fraseri lineage. We present a model showing how mtDNA and nuclear genomes can yield contrasting phytogenies for species-groups that have undergone several rounds of interspecific hybridization. Comparison of mitochondrial and nuclear sequence divergences suggests that Xenopus mtDNA, like that of mammals and birds, evolves faster than nuclear DNA. Genetic distances among mtDNAs of Xenopus species are very large, generally approaching or exceeding one substitution per nucleotide.

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Species referenced: Xenopus
Genes referenced: hpse