Respuesta :
Homozygote type A : IAIA
Heterozygote type A : IAi
Now we do the punnett square:
IA IA
IA IAIA IAIA
i IA i IA i
We see that IA i occupies half of the outcomes, so 50%.
Heterozygote type A : IAi
Now we do the punnett square:
IA IA
IA IAIA IAIA
i IA i IA i
We see that IA i occupies half of the outcomes, so 50%.
Answer:
C (50%)
Explanation:
The ABO blood group system involves three alleles viz: IA, IB, and i.
From the question, an individual will have a Type A phenotype if the genotype is either IAIA or IAi.
Type B if the genotype is IBIB or IBi
Type O if genotype is ii
Type AB if genotype is IAIB
This shows that the alleles IA and IB are dominant over the allele i, since they both mask its expression in an heterozygous state.
N.B: Homozygous state is when an individual possess the same alleles e.g IAIA while heterozygous state is when the individual possess different alleles e.g IAi.
Also, it can be seen that alleles IA and IB exhibit co-dominance, since they are both expressed phenotypically.
Now, in a cross between homozygous type A (IAIA) and heterozygous type A (IAi) individuals (See attached image).
According to Mendel's law of segregation, the following gametes will be produced by the individual parents:
IAIA- IA and IA
IAi- IA and i
According to the cross in the attachment, 2 of the 4 possible offsprings will possess a homozygous type A genotype (IAIA) while the other 2 will possess a heterozygous type A genotype (IAi).
Hence, the percentage of offsprings expected to contain the (i) allele is 2/4 × 100 = 50%