Twenty-five years ago in Genetics: electrophoresis in the development of evolutionary genetics: milestone or millstone?

[1]  A. Place,et al.  The use of enzyme kinetics to predict differences in cellular metabolism, developmental rate, and swimming performance between LDH-B genotypes of the fish, fundulus heteroclitus. , 1983, Isozymes.

[2]  L. Brooks,et al.  Nearly identical allelic distributions of xanthine dehydrogenase in two populations of Drosophila pseudoobscura. , 1985, Molecular biology and evolution.

[3]  R. El-Batsri,et al.  Enzyme Polymorphism in Mango , 1990 .

[4]  R. Lewontin,et al.  GENETIC VARIATION IN THE HORSESHOE CRAB (LIMULUS POLYPHEMUS), A PHYLOGENETIC “RELIC” , 1970, Evolution; international journal of organic evolution.

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

[6]  P. Sheppard,et al.  Selection in the polymorphic land snail Cepæa nemoralis , 1950, Heredity.

[7]  E. Ford The genetics of polymorphism in the Lepidoptera. , 1953, Advances in genetics.

[8]  H. Muller,et al.  Our load of mutations. , 1950, American journal of human genetics.

[9]  W. Bodmer,et al.  The number of balanced polymorphisms that can be maintained in a natural population. , 1967, Genetics.

[10]  R. Lewontin,et al.  The sensitivity of gel electrophoresis as a detector of genetic variation. , 1979, Genetics.

[11]  A. Wilton,et al.  Naturally occurring enzyme activity variation in Drosophila melanogaster. I. Sources of variation for 23 enzymes. , 1982, Genetics.

[12]  M. Kimura Evolutionary Rate at the Molecular Level , 1968, Nature.

[13]  R. Lewontin,et al.  A molecular approach to the study of genic heterozygosity in natural populations. II. Amount of variation and degree of heterozygosity in natural populations of Drosophila pseudoobscura. , 1966, Genetics.

[14]  C. Shaw Electrophoretic variation in enzymes. , 1965, Science.

[15]  Suh‐Yung Yang,et al.  PROTEIN POLYMORPHISM AND GENIC HETEROZYGOSITY IN TWO EUROPEAN SUBSPECIES OF THE HOUSE MOUSE , 1969, Evolution; international journal of organic evolution.

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

[17]  H. Harris The principles of human biochemical genetics , 1975 .

[18]  J. L. King Continuously distributed factors affecting fitness. , 1967, Genetics.

[19]  T DOBZHANSKY,et al.  A review of some fundamental concepts and problems of population genetics. , 1955, Cold Spring Harbor symposia on quantitative biology.

[20]  T. Ohta,et al.  Protein Polymorphism as a Phase of Molecular Evolution , 1971, Nature.

[21]  R. Lewontin,et al.  A molecular approach to the study of genic heterozygosity in natural populations. I. The number of alleles at different loci in Drosophila pseudoobscura. , 1966, Genetics.

[22]  W. Ewens The sampling theory of selectively neutral alleles. , 1972, Theoretical population biology.

[23]  R. Ben-Shlomo,et al.  The Evolutionary Significance of Genetic Diversity: Ecological, Demographic and Life History Correlates , 1984 .

[24]  G. Johnson On the estimation of effective number of alleles from electrophoretic data. , 1974, Genetics.

[25]  T. Yamazaki Measurement of fitness at the esterase-5 locus in Drosophila pseudoobscura. , 1971, Genetics.

[26]  A. Allison Aspects of polymorphism in man. , 1955, Cold Spring Harbor symposia on quantitative biology.