Question

In F2 generation, the phenotype ratio of dihybrid cross_____

• A. 3:1
• B. 1:3:1
• C. 9:3:3:1
• D. 3:9:3:3

Answer 1

The Correct Option is C

To solve the problem, we need to determine the phenotype ratio observed in the F2 generation of a dihybrid cross. A dihybrid cross involves two different traits, each controlled by two alleles (one dominant and one recessive). The classic example is Mendel's experiment with pea plants, where he crossed plants differing in two traits (e.g., seed shape and seed color).

1. Understanding Dihybrid Cross:
In a dihybrid cross, the F1 generation is heterozygous for both traits (e.g., \(AaBb\)), where \(A\) and \(B\) are dominant alleles, and \(a\) and \(b\) are recessive alleles. When the F1 generation self-fertilizes, the F2 generation results from the combination of all possible gametes.

2. Punnett Square Analysis:
The F1 generation produces four types of gametes: \(AB\), \(Ab\), \(aB\), and \(ab\). When these gametes combine during fertilization, they produce 16 possible combinations in the F2 generation. These combinations can be organized into a 4x4 Punnett square.

3. Phenotype Ratios:
In the F2 generation, the phenotypes are determined by the expression of dominant and recessive alleles. For two traits, the expected phenotype ratio is derived as follows:

• 9 individuals will have both dominant phenotypes (e.g., round and yellow seeds).
• 3 individuals will have one dominant and one recessive phenotype (e.g., round and green seeds).
• 3 individuals will have the other dominant and recessive phenotype (e.g., wrinkled and yellow seeds).
• 1 individual will have both recessive phenotypes (e.g., wrinkled and green seeds).

This results in a phenotype ratio of \(9:3:3:1\).

4. Conclusion:
The correct answer is the phenotype ratio observed in the F2 generation of a dihybrid cross, which is \(9:3:3:1\).

Final Answer: \({9:3:3:1}\)