Biopolym. Cell. 1996; 12(5):18-20.
http://dx.doi.org/10.7124/bc.000443
Genetic control of minks (Mustela vison Schreber) development. 1. Segregation by genotype in offspring of silver-blue females heterozygous by Aleutian gene
1Vagin Yu. V.
  1. Institute of Molecular Biology and Genetics, NAS of Ukraine
    150, Akademika Zabolotnoho Str., Kyiv, Ukraine, 03680

Abstract

Analysis of the five-year period data on segregation by both genotype and phenotype in offspring of ppAa genotype mink females mated by males of ppAa and ppaa genotypes are presented. The deviation from theoretically expected segregation due to the increased selective embryos elimination was found.
Full text: (PDF, in Russian)

References

[1] Ayala F. Population and evolutionary genetics. A primer. Menlo Park, California: Benjamin/Cummings. 1982. 268 p.
[2] Solbrig O, Solbrig DJ. Introduction to population biology and evolution Addison Wesley publishing comp. 1979
[3] Dawkins R. The selfish gene. Oxford University press. 1976
[4] Belyaev DK. Genetics and the problems of animal breeding. Genetika. 1966; (10): 36-48.
[5] Dubinin NP, Glembotskiy YaL. Population genetics and breeding. M.: Nauka, 1967.-591 p.
[6] Belyaev DK, Evsikov VI. Heterozygosity and its importance for the development of heterosis in mink. Heterozygosity in animal husbandry. L., 1968;70-80.
[7] Zvereva LP, Belyaev DK, Privalova GN. Phenotypic analysis of pigmentation in mutants of America mink (Mustela vison Schr.) II. Effect of the aleutian mutation and the interaction between the aleutian and silverslue coat colour genes in the genotype of sapphire mink. Effect of the "Stewart" factor on hair pigmentation. Genetika.1976; 12(2):104-9.
[8] Plokhinskiy NA. Biometrics. Novosibirsk: Sib Otdel akad Nauk SSSR, 1961. 312 p.
[9] Mayr E. Animal species and evolution. Harvard University Press, Cambridge, 1963; 797 p
[10] Mayr E. Evolution. Zh vsesoyuzhnogo khim obschestva im D I Mendeleeva. 1980:25(3):266-77.