The genotype OO produces gametes that contain only the O allele. Since an individual with the OO genotype is homozygous for the O allele, all gametes produced through meiosis will be O. Therefore, the only type of gamete produced by this genotype is O.
When the diploid genotype is FF, the potential gamete produced will carry only the F allele. Since both alleles in the genotype are the same (homozygous), all gametes will be identical, resulting in gametes that are all F. Therefore, the only potential gamete is F.
The possible gametes produced by an individual with the genotype Ww will be W and w.
Only one; A. At least concerning this one trait.
8 kinds of gametes will be formed, each showing a unique combination of alleles from the given genotype (A, B, C, D, E).
The genotype Aaaa can produce two types of gametes: A and a. During gamete formation, the alleles segregate, resulting in gametes that contain either the dominant allele A or the recessive allele a. Therefore, the two possible gametes are A and a.
OO
8 different gametes can be produced from the genotype WwXXYyZZ through independent assortment and random segregation of chromosomes during meiosis.
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.
16
The genotype of gametes produced by F1 individuals is a combination of the alleles inherited from the parental generation. Each gamete carries one allele from each parent, resulting in a variety of possible genotypes.
When the diploid genotype is FF, the potential gamete produced will carry only the F allele. Since both alleles in the genotype are the same (homozygous), all gametes will be identical, resulting in gametes that are all F. Therefore, the only potential gamete is F.
The possible gametes produced by an individual with the genotype Ww will be W and w.
The genotype of the father is certainly OO (because blood type O is recessive). The genotype of the mother however can be AO or AA (both give blood type A). The baby will have a combination of the genes from the mother and the father (one of each) and so: - If the genotype of the mother is AA and the genotype of the father is OO, the baby will certainly have AO as genotype and has therefore blood type A. -If the genotype of the mother is AO and the genotype of the father is OO, the baby can have AO or OO as genotype. AO results in blood type A and OO in blood type O (50% chance).
The percentage of AB gametes produced by an AaBb parent is 25%. This is because during meiosis, the two alleles segregate independently, resulting in equal proportions of gametes with different combinations of alleles (AB, Ab, aB, ab). By calculating the possible combinations, we see that only 25% will be AB gametes.
Only one; A. At least concerning this one trait.
Gametes are produced by meiosis
8 kinds of gametes will be formed, each showing a unique combination of alleles from the given genotype (A, B, C, D, E).