Zh Obshch Biol 2007 Jan 01;682:149-60.

[Quantitative evaluation of the genetic divergence of amphibian taxa of different rank by the spectra of total proteins and nonspecific esterases]

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Based on the PAAG disc-electrophoretic spectra of water-soluble total proteins (Pr) and non-specific esterases (Est) from several types of tissues in representatives of Urodela (Triturus vulgaris vulgaris, T. v. lantzi, T. cristatus, T. montandoni, T. dobrogicus) and Anura amphibians (Rana ridibunda, R. lessonae, R. temporaria, R. arvalis; Bufo bufo, B. viridis, Bombina bombina; Xenopus laevis, X. borealis; Hymenochirus boettgeri), mean genetic distances (D = -ln[2i/(2i + d)], where i is the number of fractions identical and d is the number of fractions different by Rf-bands, were estimated within and between taxa of intra-, inter-, and superspecific ranks. The most stable estimates were obtained for Pr and Est spectra of skeletal muscles and eyes. In most cases, the spectra of tissues of the digestive system gave higher D values than those of the other organs. The levels of intraspecific differentiation by D (both Pr and Est) were higher in the studied representatives of the order Urodela, probably due to their lower migration ability and more conservative choice of water-bodies for spawning than in the representatives of the other order; the same trend is true for the interspecific differentiation by Pr spectra. Est, on the contrary, gave lighter interspecific differentiation level in Anura than in Urodela, evidently due to the prevalence of sympatric species pairs able to hybridize among the studied representatives of the latter order.

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