Want this question answered?
Dihybrid F1 individuals produce 4 types of gametes. This is because of independent assortment during meiosis, where the alleles for each gene segregate independently of each other, resulting in all possible combinations of alleles in the gametes.
A heterozygous woman with two genes (each having two alleles) can produce four different types of gametes due to the random assortment of alleles during meiosis.
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.
127
Literally millions of different gametes. That is why each individual is unique.
Dihybrid F1 individuals produce 4 types of gametes. This is because of independent assortment during meiosis, where the alleles for each gene segregate independently of each other, resulting in all possible combinations of alleles in the gametes.
A heterozygous woman with two genes (each having two alleles) can produce four different types of gametes due to the random assortment of alleles during meiosis.
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.
127
Since problem #1 isn't included in this question we can't give any meaninful answer.
Literally millions of different gametes. That is why each individual is unique.
An organism that is heterozygous for a gene can produce two different types of gametes due to the segregation of alleles during meiosis. Each gamete will carry one of the two different alleles present in the organism.
2 can
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.
There would be 4 different gametes: ABCD, ABcD, ABc, and ABcD. Each gamete represents a unique combination of alleles for each gene.
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.
64