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N N Tyutyunnik - One of the best experts on this subject based on the ideXlab platform.
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effect of mutations affecting coat color on the blood Lymphocyte Structure in the american mink mustela vison schreber 1777
Russian Journal of Genetics, 2011Co-Authors: L B Uzenbaeva, O V Trapezov, A G Kizhina, V A Ilyukha, L I Trapezova, N N TyutyunnikAbstract:American minks with different genotypes containing the Aleutian coat color allele in the homozygous state, including the single recessive Aleutian (a/a); double recessive sapphire (a/a p/p) and lavender (m/m a/a); triple recessive violet (m/m a/a p/p); and dominant-recessive cross sapphire (S/+ a/a p/p), sapphire leopard (SK/+ a/a p/p), and shadow sapphire (SH/+ a/a p/p) minks, as well as American minks without the Aleutian allele, including the standard (+/+); single recessive silver-blue (p/p) and hedlund-white (h/h); double recessive pearl (k/k p/p), Finnish topaz (tS/tSb/b); incompletely dominant royal silver (SR/+), standard leopard (SK/+), and black crystal (CR/+); and dominant-recessive snowy topaz (CR/+ tS/tSb/b) and Kujtezhyspotted (SK/+ b/b) minks have been studied. Homozygosity for the a allele has been found to disturb the subcellular Structure of leukocyte, namely the formation of abnormally large granules.
L B Uzenbaeva - One of the best experts on this subject based on the ideXlab platform.
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effect of mutations affecting coat color on the blood Lymphocyte Structure in the american mink mustela vison schreber 1777
Russian Journal of Genetics, 2011Co-Authors: L B Uzenbaeva, O V Trapezov, A G Kizhina, V A Ilyukha, L I Trapezova, N N TyutyunnikAbstract:American minks with different genotypes containing the Aleutian coat color allele in the homozygous state, including the single recessive Aleutian (a/a); double recessive sapphire (a/a p/p) and lavender (m/m a/a); triple recessive violet (m/m a/a p/p); and dominant-recessive cross sapphire (S/+ a/a p/p), sapphire leopard (SK/+ a/a p/p), and shadow sapphire (SH/+ a/a p/p) minks, as well as American minks without the Aleutian allele, including the standard (+/+); single recessive silver-blue (p/p) and hedlund-white (h/h); double recessive pearl (k/k p/p), Finnish topaz (tS/tSb/b); incompletely dominant royal silver (SR/+), standard leopard (SK/+), and black crystal (CR/+); and dominant-recessive snowy topaz (CR/+ tS/tSb/b) and Kujtezhyspotted (SK/+ b/b) minks have been studied. Homozygosity for the a allele has been found to disturb the subcellular Structure of leukocyte, namely the formation of abnormally large granules.
O V Trapezov - One of the best experts on this subject based on the ideXlab platform.
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effect of mutations affecting coat color on the blood Lymphocyte Structure in the american mink mustela vison schreber 1777
Russian Journal of Genetics, 2011Co-Authors: L B Uzenbaeva, O V Trapezov, A G Kizhina, V A Ilyukha, L I Trapezova, N N TyutyunnikAbstract:American minks with different genotypes containing the Aleutian coat color allele in the homozygous state, including the single recessive Aleutian (a/a); double recessive sapphire (a/a p/p) and lavender (m/m a/a); triple recessive violet (m/m a/a p/p); and dominant-recessive cross sapphire (S/+ a/a p/p), sapphire leopard (SK/+ a/a p/p), and shadow sapphire (SH/+ a/a p/p) minks, as well as American minks without the Aleutian allele, including the standard (+/+); single recessive silver-blue (p/p) and hedlund-white (h/h); double recessive pearl (k/k p/p), Finnish topaz (tS/tSb/b); incompletely dominant royal silver (SR/+), standard leopard (SK/+), and black crystal (CR/+); and dominant-recessive snowy topaz (CR/+ tS/tSb/b) and Kujtezhyspotted (SK/+ b/b) minks have been studied. Homozygosity for the a allele has been found to disturb the subcellular Structure of leukocyte, namely the formation of abnormally large granules.
A G Kizhina - One of the best experts on this subject based on the ideXlab platform.
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effect of mutations affecting coat color on the blood Lymphocyte Structure in the american mink mustela vison schreber 1777
Russian Journal of Genetics, 2011Co-Authors: L B Uzenbaeva, O V Trapezov, A G Kizhina, V A Ilyukha, L I Trapezova, N N TyutyunnikAbstract:American minks with different genotypes containing the Aleutian coat color allele in the homozygous state, including the single recessive Aleutian (a/a); double recessive sapphire (a/a p/p) and lavender (m/m a/a); triple recessive violet (m/m a/a p/p); and dominant-recessive cross sapphire (S/+ a/a p/p), sapphire leopard (SK/+ a/a p/p), and shadow sapphire (SH/+ a/a p/p) minks, as well as American minks without the Aleutian allele, including the standard (+/+); single recessive silver-blue (p/p) and hedlund-white (h/h); double recessive pearl (k/k p/p), Finnish topaz (tS/tSb/b); incompletely dominant royal silver (SR/+), standard leopard (SK/+), and black crystal (CR/+); and dominant-recessive snowy topaz (CR/+ tS/tSb/b) and Kujtezhyspotted (SK/+ b/b) minks have been studied. Homozygosity for the a allele has been found to disturb the subcellular Structure of leukocyte, namely the formation of abnormally large granules.
V A Ilyukha - One of the best experts on this subject based on the ideXlab platform.
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effect of mutations affecting coat color on the blood Lymphocyte Structure in the american mink mustela vison schreber 1777
Russian Journal of Genetics, 2011Co-Authors: L B Uzenbaeva, O V Trapezov, A G Kizhina, V A Ilyukha, L I Trapezova, N N TyutyunnikAbstract:American minks with different genotypes containing the Aleutian coat color allele in the homozygous state, including the single recessive Aleutian (a/a); double recessive sapphire (a/a p/p) and lavender (m/m a/a); triple recessive violet (m/m a/a p/p); and dominant-recessive cross sapphire (S/+ a/a p/p), sapphire leopard (SK/+ a/a p/p), and shadow sapphire (SH/+ a/a p/p) minks, as well as American minks without the Aleutian allele, including the standard (+/+); single recessive silver-blue (p/p) and hedlund-white (h/h); double recessive pearl (k/k p/p), Finnish topaz (tS/tSb/b); incompletely dominant royal silver (SR/+), standard leopard (SK/+), and black crystal (CR/+); and dominant-recessive snowy topaz (CR/+ tS/tSb/b) and Kujtezhyspotted (SK/+ b/b) minks have been studied. Homozygosity for the a allele has been found to disturb the subcellular Structure of leukocyte, namely the formation of abnormally large granules.
