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Общее количество найденных документов : 46
Показаны документы с 1 по 20
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1.
| Калябина-Хауф С.А. Филогеография и внутривидовая структура широкоареального вида ящериц, Lagerta agilis L. 1758. - 2003
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| Гилева Э.А. Изменчивость скоростей хромосомной макроэволюции у млекопитающих // 5 Съезд Всес. териол. о-ва АН СССР, Москва, 29 янв. - 2 февр., 1990. -М., 1990, Т. 1.-С.52-53
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| Mathur The evolution of enamel microstructure: How important is amelogenin? // J. Mammal. Evol., 2000. Vol. 7, N 1.-С.23-42
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| Mathur The evolution of enamel microstructure: How important is amelogenin? // J. Mammal. Evol., 2000. Vol. 7, N 1.-С.23-42
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| Hoffman Testing the Red Queen Hypothesis // J. Evol. Biol., 1991. Vol. 4, N 1.-С.1-7
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| Scombroid fishes provide novel insights into the trait/rate associations of molecular evolution // J. Mol. Evol., 2014. Vol. 78, N 6.-С.338-348
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| Scombroid fishes provide novel insights into the trait/rate associations of molecular evolution // J. Mol. Evol., 2014. Vol. 78, N 6.-С.338-348
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| Wolfe Li W.-H. Reconstruction of phylogenetic trees and estimation of divergence times under nonconstant rates of evolution // Cold Spring Harbor Symp. Quant. Biol.. -Cold Spring Harbor (N. Y.), 1988, Vol. 52.-С.847-856
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| Gonzalez-Voyer A. Rates of phenotypic evolution of ecological characters and sexual traits during the Tanganyikan cichlid adaptive radiation // J. Evol. Biol., 2011. Vol. 24, N 11.-С.2378-2388
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| Gonzalez-Voyer A. Rates of phenotypic evolution of ecological characters and sexual traits during the Tanganyikan cichlid adaptive radiation // J. Evol. Biol., 2011. Vol. 24, N 11.-С.2378-2388
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| Dawson Michael N. Rapid evolutionary radiation of marine zooplankton in peripheral environments // Proc. Nat. Acad. Sci. USA, 2005. Vol. 102, N 26.-С.9235-9240
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| Protein interactions limit the rate of evolution of photosynthetic genes in cyanobacteria // Mol. Biol. and Evol., 2005. Vol. 22, N 11.-С.2179-2189
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| Poux Primate phylogeny, evolutionary rate variations, and divergence times: A contribution from the nuclear gene IRBP // Amer. J. Phys. Anthropol., 2004. Vol. 124, N 1.-С.1-16
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| Sarp Paul M. On the rate of DNA sequence evolution in Drosophila // J. Mol. Evol., 1989. Vol. 28, N 5.-С.398-402
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| Molecular phylogeny of the salamandrid genus Neurergus: Evidence for an intrageneric switch of reproductive biology // Amphibia-Reptilia, 2002. Vol. 23, N 4.-С.419-432
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| Gojobori Molecular clock of viral evolution, and the neutral theory // Proc. Nat. Acad. Sci. USA, 1990. Vol. 87, N 24.-С.10015-10018
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17.
| Mitochondrial DNA in Gasterosteus and pleistocene glacial refugium on the Queen Charlotte Islands, British Columbia // Evolution. -USA, 1993. Vol. 47, N 2.-С.678-684
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18.
| Powell Matthew G. Latitudinal diversity gradients for brachiopod genera during late Palaeozoic time: Links between climate, biogeography and evolutionary rates // Glob. Ecol. and Biogeogr., 2007. Vol. 16, N 4.-С.519-528
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19.
| Powell Matthew G. Latitudinal diversity gradients for brachiopod genera during late Palaeozoic time: Links between climate, biogeography and evolutionary rates // Glob. Ecol. and Biogeogr., 2007. Vol. 16, N 4.-С.519-528
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20.
| Garcia-Porta J. Key innovations and island clonization as engines of evolutionary diversification: A comparative test with the Australasian diplodactyloid geckos // J. Evol. Biol., 2013. Vol. 26, N 12.-С.2662-2680
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