Only one; A. At least concerning this one trait.
There can be 4 different non-repeating allele combinations in the gametes of a person with genotype AABBCc: ABC, ACB, BAC, and BCA.
8 kinds of gametes will be formed, each showing a unique combination of alleles from the given genotype (A, B, C, D, E).
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.
There are four different gametes for XXHhuU: XHU, XHu, XhU, and Xhu.
A pea plant with the genotype GgTt can produce 4 types of gametes: GT, Gt, gT, and gt. This is based on the principle of independent assortment where different gene pairs segregate independently of each other during gamete formation.
16
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
8 different gametes can be produced from the genotype WwXXYyZZ through independent assortment and random segregation of chromosomes during meiosis.
2 can
8 different gametes can be produced from the genotype AaBBDDEeff. This is because each gene segregates independently during meiosis, allowing for different combinations of alleles to end up in the gametes.
Four different kinds of gametes can be made by an individual with the genotype TtGG. This is because during meiosis, the two homologous chromosomes in the genotype TtGG can segregate into four possible combinations of gametes: TG, Tg, tG, and tg.
There can be 4 different non-repeating allele combinations in the gametes of a person with genotype AABBCc: ABC, ACB, BAC, and BCA.
Four can be formed RY, Ry, rY and ry.
8 kinds of gametes will be formed, each showing a unique combination of alleles from the given genotype (A, B, C, D, E).
Eight different gametes can be produced from an individual with genotype Gg RR Tt. This is because of independent assortment of alleles during meiosis which allows for different combinations of alleles to be present in the gametes.
Each time a gamete is formed, one allele from each gene (i.e. either A or a) is included.This means for an individual with AaBbCc, there are 8 different gametes:ABCABcAbCAbcaBCabCaBcabc
1. Assign symbols (letters) 2. Indicate genotype of parents 3. How many different gametes 4. Punnet square 5. Determine phenotype