Only one; A. At least concerning this one trait.
An individual with genotype AAA will only have gametes with the genotype A. This is because the individual is homozygous.
two gametes (aBcD and aBcD)
ABC ABc
8
It depends on the allele combinations of the other pea plant parent. If the other pea plant parent also has a genotype of RrYy, then there are 16 combinations. If the other parent has genotype RRYY, then there are only 4 allele combinations. If the other parent has a genotype of RrYY, then there are 8 allele combinations in the gametes. If the other parent has a genotype of RRYy, then there are also 8 possible combinations in the gametes. Finally, if the other parent has the genotype rryy, then there are 4 gamete combinations.
Literally millions of different gametes. That is why each individual is unique.
No gametes are formed in asexual reproduction because they are only formed in sexual reproduction. Many cells can come from one cell in asexual reproduction which is really a cloning process, but not gametes.
16
4
The possible gametes are ABDEf, aBDEf, ABDef, and aBDef.
2 can
Only two different gametes (sex cells) can be created using a combination of AabbCCdd. This is because Aa is the only gene with two different alleles (A and a). The other genes have two copies of the same allele - therefore that is all that the gamete can contain. So the two different gametes possible are: AbCd and abCd
Four can be formed RY, Ry, rY and ry.
Two: TG and tG
ABC ABc
8
1. Assign symbols (letters) 2. Indicate genotype of parents 3. How many different gametes 4. Punnet square 5. Determine phenotype
It depends on the allele combinations of the other pea plant parent. If the other pea plant parent also has a genotype of RrYy, then there are 16 combinations. If the other parent has genotype RRYY, then there are only 4 allele combinations. If the other parent has a genotype of RrYY, then there are 8 allele combinations in the gametes. If the other parent has a genotype of RRYy, then there are also 8 possible combinations in the gametes. Finally, if the other parent has the genotype rryy, then there are 4 gamete combinations.
Literally millions of different gametes. That is why each individual is unique.