Aa=2
Bb=2
CC=1
dd=1
EE=1
2 x 2 x 1 x 1 x 1 = 4
there is no variation for the alleles C and D. alleles A and B are heterozygous there is variation for these two (Aa and Bb)
2^2=4
therefore, 4 different gametes are possible
8
law of independent assortment b
Segregate
Eight.The organism is homozygous for the C and E genes, so there is no variation there. Three genes (A, B, and D) are present in two alternative forms, so there are 23combinations possible, which comes to eight.
I think it's genotype...
An individual with a heterozygous genotype cannot be true-bred.
What is the probability that any of the offspring between individuals with the genotype AABbCcddEE will have the genotype AABBCCddEE
law of independent assortment b
8
Segregate
Eight.The organism is homozygous for the C and E genes, so there is no variation there. Three genes (A, B, and D) are present in two alternative forms, so there are 23combinations possible, which comes to eight.
RrYy
I think it's genotype...
Dd is the heterozygous genotype for dimples.
An individual with a heterozygous genotype cannot be true-bred.
Genotype
Genotype.
genotype