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Molecular Evolution Bibliographies |
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| S. Easteal, "The pattern of mammalian evolution and the relative rate of molecular evolution," Genetics, 124 (1990), 165-73. | |
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| | | S. Easteal, "Rate constancy of globin gene evolution in placental mammals," Proceedings of the National Academy of Sciences of the United States of America, 85 (1988), 7622-6. | |
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| | | S. Easteal and C. Collet, "Consistent Variation in Amino-Acid Substitution Rate, Despite Uniformity of Mutation-Rate - Protein Evolution in Mammals Is Not Neutral," Molecular Biology and Evolution, 11 (1994), 643-647. | |
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| | | S. Easteal and C. Collet, "Consistent variation in amino-acid substitution rate, despite uniformity of mutation rate: protein evolution in mammals is not neutral," Molecular Biology & Evolution, 11 (1994), 643-7. | |
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| | | Simon Easteal, Chris Collet and David Betty, The mammalian molecular clock (Austin: R.G. Landes, 1995). | |
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| | | S. V. Edwards et al., "Ancestral polymorphism of Mhc class II genes in mice: implications for balancing selection and the mammalian molecular clock," Genetics, 146 (1997), 655-68. | |
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| | | E. E. Eichler et al., "Complex beta-satellite repeat structures and the expansion of the zinc finger gene cluster in 19p12," Genome Research, 8 (1998), 791-808. | |
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| | | B. K. Epperson and T. Li, "Measurement of genetic structure within populations using Moran's spatial autocorrelation statistics," Proceedings of the National Academy of Sciences of the United States of America, 93 (1996), 10528-32. | |
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| | | B. K. Epperson and T. Q. Li, "Measurement of genetic structure within populations using Moran's spatial autocorrelation statistics," Proceedings of the National Academy of Sciences of the United States of America, 93 (1996), 10528-10532. | |
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| | | S. Esseghir et al., "Mitochondrial haplotypes and phylogeography of Phlebotomus vectors of Leishmania major," Insect Molecular Biology, 6 (1997), 211-25. | |
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| | | B. D. Farrell, "Evolutionary assembly of the milkweed fauna: cytochrome oxidase I and the age of Tetraopes beetles," Molecular Phylogenetics & Evolution, 18 (2001), 467-78. | |
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| | | M. W. Feldman and R. C. Lewontin, "Heritability Hang-Up," Science, 190 (1975), 1163-1168. | |
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| | | M. W. Feldman and R. C. Lewontin, "Heritability of Iq," Science, 194 (1976), 12-14. | |
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| | | M. W. Feldman et al., "Selection in Complex Genetic Systems .3. Effect of Allele Multiplicity with 2 Loci," Genetics, 79 (1975), 333-347. | |
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| | | J. Fernandez et al., "Macrodynamics in a model of biological evolution," Physics Letters A, 249 (1998), 342-347. | |
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| | | A. Ferracin, "A Neutral Theory of Biogenesis," Origins of Life and Evolution of the Biosphere, 11 (1981), 369-385. | |
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| | | J. E. Fleming et al., "Age-dependent changes in proteins of Drosophila melanogaster," Science, 231 (1986), 1157-9. | |
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| | | P. K. Flook and C. H. Rowell, "Inferences about orthopteroid phylogeny and molecular evolution from small subunit nuclear ribosomal DNA sequences," Insect Molecular Biology, 7 (1998), 163-78. | |
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| | | Marcel Florkin, L'Èvolution biochimique (LiÈge: Desoer, 1944). | |
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| | | P. Foley, "Molecular clock rates at loci under stabilizing selection," Proceedings of the National Academy of Sciences of the United States of America, 84 (1987), 7996-8000. | |
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| | | P. Foley, "Small Population Genetic-Variability at Loci under Stabilizing Selection," Evolution, 46 (1992), 763-774. | |
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| | | M. J. Ford, P. J. Thornton and L. K. Park, "Natural selection promotes divergence of transferrin among salmonid species," Molecular Ecology, 8 (1999), 1055-1061. | |
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| | | F. Friedberg and A. R. Rhoads, "Calculation and verification of the ages of retroprocessed pseudogenes," Molecular Phylogenetics & Evolution, 16 (2000), 127-30. | |
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| | | K. J. Fryxell and E. Zuckerkandl, "Cytosine deamination plays a primary role in the evolution of mammalian isochores," Molecular Biology & Evolution, 17 (2000), 1371-83. | |
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| | | L. Fumagalli et al., "Molecular phylogeny and evolution of Sorex shrews (Soricidae: insectivora) inferred from mitochondrial DNA sequence data," Molecular Phylogenetics & Evolution, 11 (1999), 222-35. | |
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| | | D. J. Funk, J. J. Wernegreen and N. A. Moran, "Intraspecific variation in symbiont genomes: Bottlenecks and the aphid-buchnera association," Genetics, 157 (2001), 477-489. | |
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| | | D. J. Futuyma et al., "Macroevolution Conference," Science, 211 (1981), 770-770. | |
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| | | R. W. Gauldie, "Testing neutral theorists: Revisiting heterozygosities at the phosphoglucomutase locus and glucose phosphate isomerase locus," Comparative Biochemistry and Physiology B-Biochemistry & Molecular Biology, 115 (1996), 47-56. | |
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| | | S. Gavrilets, "A dynamical theory of speciation on holey adaptive landscapes," American Naturalist, 154 (1999), 1-22. | |
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| | | Raymond F. Gesteland, Thomas Cech and John F. Atkins, The RNA world: the nature of modern RNA suggests a prebiotic RNA (Cold Spring Harbor, N.Y.: Cold Spring Harbor Laboratory Press, 1999). | |
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| | | P. E. Gibbs, W. F. Witke and A. Dugaiczyk, "The molecular clock runs at different rates among closely related members of a gene family," Journal of Molecular Evolution, 46 (1998), 552-61. | |
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| | | J. H. Gillespie, "[Review] The Neutral Theory of Molecular Evolution - Kimura,M," Science, 224 (1984), 732-733. | |
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| | | J. H. Gillespie, "The neutral theory in an infinite population," Gene, 261 (2000), 11-18. | |
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| | | J. H. Gillespie, "Could natural selection account for molecular evolution and polymorphism?," Genome, 31 (1989), 311-5. | |
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| | | J. H. Gillespie, "On Ohta Hypothesis - Most Amino-Acid Substitutions Are Deleterious," Journal of Molecular Evolution, 40 (1995), 64-69. | |
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| | | J. H. Gillespie, "Substitution Processes in Molecular Evolution .3. Deleterious Alleles," Genetics, 138 (1994), 943-952. | |
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| | | L. U. Gilliland et al., "Detection of deleterious genotypes in multigenerational studies. I. Disruptions in individual Arabidopsis actin genes," Genetics, 149 (1998), 717-725. | |
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| | | T. J. Givnish et al., "Molecular evolution, adaptive radiation, and geographic diversification in the amphiatlantic family Rapateaceae: evidence from ndhF sequences and morphology," Evolution, 54 (2000), 1915-37. | |
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| | | Thomas J. Givnish and Kenneth Jay Sytsma, Molecular evolution and adaptive radiation (Cambridge: Cambridge University Press, 1997). | |
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| | | Susan Beth Glueck, Molecular evolution of Rdl in insects (: Thesis (Ph. D.)--Cornell University, Jan., 1998, 1998). | |
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| | | T. Gojobori, E. N. Moriyama and M. Kimura, "Statistical-Methods for Estimating Sequence Divergence," Methods in Enzymology, 183 (1990), 531-550. | |
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| | | T. Gojobori, E. N. Moriyama and M. Kimura, "Molecular Clock of Viral Evolution, and the Neutral Theory," Proceedings of the National Academy of Sciences of the United States of America, 87 (1990), 10015-10018. | |
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| | | T. Gojobori, Y. Tateno and T. Ohta, "Networks and evolution of molecular information," Journal of Molecular Evolution, 44 (1997), S1-S1. | |
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| | | T. Gojobori et al., "Evolution of Pathogenic Viruses with Special Reference to the Rates of Synonymous and Nonsynonymous Substitutions," Japanese Journal of Genetics, 69 (1994), 481-488. | |
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| | | T. Gojobori and S. Yokoyama, "Molecular evolutionary rates of oncogenes," Journal of Molecular Evolution, 26 (1987), 148-56. | |
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| | | A. E. Goldfeld et al., "Post-genomics and the neutral theory: variation and conservation in the tumor necrosis factor-alpha promoter," Gene, 261 (2000), 19-25. | |
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| | | N. Goldman, "Variance to mean ratio, R(t), for poisson processes on phylogenetic trees," Molecular Phylogenetics & Evolution, 3 (1994), 230-9. | |
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| | | M. Goodman, "Man's place in the phylogeny of the primates as reflected in serum proteins," in S.L. Washburn, ed., Classification and Human Evolution (Chicago: Aldine, 1963), 204-234. | |
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| | | M. Goodman, "Immunochemistry of the primates and primate evolution," Ann. N.Y. Acad. Sci., 102 (1962), 219-234. | |
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| | | M. Goodman, "Rates of molecular evolution: The homonid slow down," BioEssays, 3 (1985), 9-14. | |
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