The entire genetic identity of an individual including alleles or gene forms that do not show as outward characteristics.
Yes. CC would be homozygous dominant, cc homozygous recessive and Cc would be a heterozygous individual.
Making babies
An albino has all recessive genes for pigmentation. Hence there is no expression for pigment. In other words the genotype of an albino is homozygous recessive.
M-> C c F C CC Cc c Cc cc phenotype- 3:1 genotype- 1:2:1
PHENOTYPE = how the traitphysically shows-up in the organism. ...Heterozygous means one of each allele in the genotype (ex: Cc)
25% of the offspring will have the recessive genotype for hair colour.
Cc
CC
50% of the rabbits will be cc and 50% of the rabbits will be Cc. The punnet square is simple because one rabbit is homozygous recessive and the other is heterozygous. The genotype is then defined by the heterozygous (Cc) rabbit.
Yes. CC would be homozygous dominant, cc homozygous recessive and Cc would be a heterozygous individual.
Homozygous = identical allelesHeterozygous = different allelesEven though the genotype has two of the same letter, the difference in capitalization signifies they are different.Thus, Cc is heterozygous
Dominant Recessive
The genotype of a person with CF is cc. The genotype of a carrier of a CF mutation is Cc.
Making babies
A heterozygote for the the alleles C and c would be Cc.
An albino has all recessive genes for pigmentation. Hence there is no expression for pigment. In other words the genotype of an albino is homozygous recessive.
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