Analysis of central equilibria in multilocus systems: A generalized symmetric viability regime☆

[1]  Shiva M. Singh,et al.  GROWTH RATE IN OYSTERS: AN OVERDOMINANT PHENOTYPE AND ITS POSSIBLE EXPLANATIONS , 1980, Evolution; international journal of organic evolution.

[2]  J. Sved The “Hybrid Dysgenesis” Syndrome in Drosophila melanogaster , 1979 .

[3]  Samuel Karlin,et al.  A natural class of multilocus recombination processes and related measures of crossover interference , 1979, Advances in Applied Probability.

[4]  H. Harris Multilocus enzymes in man. , 1979, Ciba Foundation symposium.

[5]  S. Karlin,et al.  Central Equilibria in Multilocus Systems. II. Bisexual Generalized Nonepistatic Selection Models. , 1979, Genetics.

[6]  S Karlin,et al.  Central equilibria in multilocus systems. I. Generalized nonepistatic selection regimes. , 1979, Genetics.

[7]  M. Soulé HETEROZYGOSITY AND DEVELOPMENTAL STABILITY: ANOTHER LOOK , 1979, Evolution; international journal of organic evolution.

[8]  S Karlin,et al.  Classifications and comparisons of multilocus recombination distributions. , 1978, Proceedings of the National Academy of Sciences of the United States of America.

[9]  F. Fitch,et al.  Immunological memory is regulated in the enhanced rat renal allograft recipient , 1978, Nature.

[10]  J. Mitton Relationship between heterozygosity for enzyme loci and variation of morphological characters in natural populations , 1978, Nature.

[11]  C. Z. Roux Sex differences in linkage between autosomal loci. , 1978, Theoretical population biology.

[12]  S. M. Singh and E. Zouros GENETIC VARIATION ASSOCIATED WITH GROWTH RATE IN THE AMERICAN OYSTER (CRASSOSTREA VIRGIN ICA) , 1978, Evolution; international journal of organic evolution.

[13]  D. Skibinski,et al.  GENETIC EVIDENCE FOR NATURALLY OCCURRING HYBRIDS BETWEEN MYTILUS EDULIS AND MYTILUS GALLOPROVINCIALIS , 1978, Evolution; international journal of organic evolution.

[14]  J. Crow,et al.  Heterozygous effects on fitness of EMS-treated chromosomes in Drosophila melanogaster. , 1978, Genetics.

[15]  R. Milkman Selection differentials and selection coefficients. , 1978, Genetics.

[16]  M. G. Kidwell,et al.  Hybrid Dysgenesis in DROSOPHILA MELANOGASTER: A Syndrome of Aberrant Traits Including Mutation, Sterility and Male Recombination. , 1977, Genetics.

[17]  S. Karlin,et al.  A phenotypic symmetric selection model for three loci, two alleles: the case of tight linkage. , 1976, Theoretical population biology.

[18]  E. Berger Heterosis and the Maintenance of Enzyme Polymorphism , 1976, American Naturalist.

[19]  W. K. Baker Linkage disequilibrium over space and time in natural populations of Drosophila montana. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[20]  S. Karlin General two-locus selection models: some objectives, results and interpretations. , 1975, Theoretical population biology.

[21]  C. Strobeck The two locus model by different recombination values in the two sexes , 1975, Advances in Applied Probability.

[22]  T. Watanabe,et al.  The genetic structure of natural populations of Drosophila melanogaster. XII. Linkage disequilibrium in a large local population. , 1974, Genetics.

[23]  C. Z. Roux Hardy-Weinberg equilibria in random mating populations. , 1974, Theoretical population biology.

[24]  M. Slatkin,et al.  On treating the chromosome as the unit of selection. , 1972, Genetics.

[25]  F. Ayala,et al.  A population cage test for heterosis in Drosophila pseudoobscura. , 1970, Genetics.

[26]  M. Feldman,et al.  Convergence to equilibrium of the two locus additive viability model , 1970, Journal of Applied Probability.

[27]  R. Lewontin,et al.  Is the gene the unit of selection? , 1970, Genetics.

[28]  Ewens Wj Mean fitness increases when fitnesses are additive. , 1969 .

[29]  C. Markert THE MOLECULAR BASIS FOR ISOZYMES , 1968, Annals of the New York Academy of Sciences.

[30]  W F Bodmer,et al.  Linkage and selection: theoretical analysis of the deterministic two locus random mating model. , 1967, Genetics.

[31]  R. Milkman Heterosis as a major cause of heterozygosity in nature. , 1967, Genetics.

[32]  N. Bailey Introduction to the mathematical theory of genetic linkage. , 1963 .

[33]  F. Schnell Some general formulations of linkage effects in inbreeding. , 1961, Genetics.

[34]  R. Lewontin,et al.  THE EVOLUTIONARY DYNAMICS OF COMPLEX POLYMORPHISMS , , , 1960 .

[35]  M. Kimura A MODEL OF A GENETIC SYSTEM WHICH LEADS TO CLOSER LINKAGE BY NATURAL SELECTION , 1956 .

[36]  S Karlin,et al.  Principles of polymorphism and epistasis for multilocus systems. , 1979, Proceedings of the National Academy of Sciences of the United States of America.

[37]  P. Hedrick,et al.  Multilocus Systems in Evolution , 1978 .

[38]  R. Lewontin,et al.  Heterosis as an explanation for large amounts of genic polymorphism. , 1978, Genetics.

[39]  C. Strobeck The Three Locus Model with Multiplicative Fitness Values: The Crystallization of the Genome , 1976 .

[40]  M W Feldman,et al.  Selection in complex genetic systems. I. The symmetric equilibria of the three-locus symmetric viability model. , 1974, Genetics.

[41]  R. Lewontin,et al.  Evolutionary significance of linkage and epistasis. , 1970 .

[42]  B. Wallace Topics in population genetics. , 1968 .

[43]  Walter F. Bodmer,et al.  Linkage and Recombination in Evolution , 1962 .

[44]  S. Wright The genetics of quantitative variability. , 1952 .

[45]  R. Lewontin,et al.  The Genetic Basis of Evolutionary Change , 2022 .