Recombination dynamics and the fitness landscape

[1]  Melanie Mitchell,et al.  The Performance of Genetic Algorithms on Walsh Polynomials: Some Anomalous Results and Their Explanation , 1991, ICGA.

[2]  M. Feldman,et al.  More on selection for and against recombination. , 1990, Theoretical population biology.

[3]  M. Feldman,et al.  Mutation modification with multiplicative fertility selection. , 1990, Theoretical population biology.

[4]  M. Feldman,et al.  More on recombination and selection in the modifier theory of sex-ratio distortion. , 1989, Theoretical population biology.

[5]  M. Feldman,et al.  7. The Reduction Principle For Genetic Modifiers Of The Migration Rate , 1989 .

[6]  John H. Holland,et al.  Distributed genetic algorithms for function optimization , 1989 .

[7]  J. M. Smith Selection for recombination in a polygenic model--the mechanism. , 1988, Genetical research.

[8]  S. Kauffman,et al.  Towards a general theory of adaptive walks on rugged landscapes. , 1987, Journal of theoretical biology.

[9]  M. Feldman,et al.  A general reduction principle for genetic modifiers of recombination. , 1986, Theoretical population biology.

[10]  M W Feldman,et al.  Modifiers of mutation rate: a general reduction principle. , 1986, Theoretical population biology.

[11]  M W Feldman,et al.  An evolutionary reduction principle for genetic modifiers. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[12]  L. Altenberg,et al.  Selection for increased mutation rates with fertility differences between matings. , 1986, Genetics.

[13]  M. Feldman,et al.  Linkage modification with mixed random mating and selfing: a numerical study. , 1983, Genetics.

[14]  S. Karlin,et al.  Some natural viability systems for a multiallelic locus: a theoretical study. , 1981, Genetics.

[15]  M. Feldman,et al.  A theoretical and numerical assessment of genetic variability. , 1981, Genetics.

[16]  F B Christiansen,et al.  Evolution of recombination in a constant environment. , 1980, Proceedings of the National Academy of Sciences of the United States of America.

[17]  J. M. Smith,et al.  Selection for recombination in a polygenic model , 1980 .

[18]  B. Charlesworth,et al.  Selection for recombination in partially self-fertilizing populations. , 1979, Genetics.

[19]  J. M. Smith The effects of normalizing and disruptive selection on genes for recombination. , 1979, Genetical research.

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

[21]  J. Felsenstein,et al.  The evolutionary advantage of recombination. II. Individual selection for recombination. , 1976, Genetics.

[22]  B. Charlesworth Recombination modification in a fluctuating environment , 1976, Advances in Applied Probability.

[23]  M. Feldman,et al.  Population genetics of modifiers of meiotic drive. II. Linkage modification in the segregation distortion system. , 1974, Theoretical Population Biology.

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

[25]  H. Levene,et al.  Genetic Equilibrium When More Than One Ecological Niche is Available , 1953, The American Naturalist.

[26]  Nei Population Genetics of Modifiers of Meiotic Drive. II Linkage Modification in the Segregation Distortion System* , 2022 .