Biopolym. Cell. 2002; 18(4):347-350.
Short Communications
Role of the aleutian gene in Mustela vison onthogenesis. Analysis of viability of the different origin sapphire offsprings
1Vagyn Yu. V.
  1. Institute of Molecular Biology and Genetics, NAS of Ukraine
    150, Akademika Zabolotnoho Str., Kyiv, Ukraine, 03680

Abstract

Data on the rise of viability which is the basic component of fitness, were obtained for sapphire (genotype ppaa) females of Mustela vison minks born by silver-blue (genotype ppAa) females.

References

[1] Vagin YuV. Role of the aleutian gene in Mustela vison ontogenesis. 1. Estimation for the divergence among the offspring derived from ppAa female x ppAa male minks crosses. Biopolym Cell. 2001; 17(1):78-9.
[2] Vagyn YuV. Role of the aleutian gene in Mustela vison ontogenesis. 2. Estimation for the divergence among the offspring derived from ppAa female x ppaa male minks crosses. Biopolym Cell. 2001; 17(2):166-8.
[3] Vagyn YuV. Role of the aleutian gene in Mustela vison onthogenesis. 4. Effect of litter value and date of birth on deviation in the minks offspring of ppAa females x ppaa males. Biopolym Cell. 2001; 17(4):337-40.
[4] Vagyn YuV. Role of the aleutian gene in Mustela vison onthogenesis. Effect of pregnancy terms on diviation in the minks offsprings of ppAa females x ppaa males. Biopolym Cell. 2001; 17(5):455-7.
[5] Vagyn YuV. Role of the aleutian gene in Mustela vison onthogenesis. Effect of litter value and date of birth on diviation in the minks offspring of ppAa females x ppaa males. Biopolym Cell. 2001; 17(6):565-7.
[6] Vagyn YuV. Role of the aleutian gene in Mustela vison onthogenesis. Analysis of fecundity of the different origin sapphire offsprings. Biopolym Cell. 2002; 18(1):81-3.
[7] Vagyn YuV. Role of the aleutian gene in Mustela vison onthogenesis. Estimation of vitality of ppA- and ppaa cubs derived from ppAa females and ppAa males crosses. Biopolym Cell. 2002; 18(2):171-3.
[8] Vagyn YuV. Role of the aleutian gene in Miistela vison onthogenesis. Estimation of vitality of ppAa and ppaa cubs derived from ppAa females and ppaa males crosses. Biopolym Cell. 2002; 18(3):255-7.
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