Back of the leopard frog (Rana pipiens) can be either patterned or non-patterned - VCE - SSCE Biology - Question 1 - 2003 - Paper 1

The dominance of the patterned phenotype can be inferred from the observed ratio of the offspring. In a typical Mendelian inheritance pattern, if a dominant trait is present, it will manifest in approximately 75% of the offspring when a homozygous dominant or heterozygous parental genotype is crossed with a homozygous recessive one.

In this case, the presence of 75 patterned offspring indicates that patterned is likely the dominant trait, as it overrides the recessive non-patterned phenotype.

For the patterned frogs, we can denote the alleles as follows:

• Let 'P' represent the dominant allele for patterned phenotype.
• Let 'p' represent the recessive allele for non-patterned phenotype.

Parents:

• Parent 1: PP (homozygous patterned)
• Parent 2: pp (homozygous non-patterned)

Offspring Genotypes:

• All offspring will be Pp (heterozygous patterned).
• Offspring Phenotypes: all patterned (75%).

Despite both crosses having patterned parents, their differences in offspring results stem from variations in genotypes. In Cross A, one parent was homozygous non-patterned (pp), ensuring all offspring were patterned (Pp). However, in Cross B, if both parents were heterozygous (Pp), a typical Mendelian ratio would yield patterns of 1/4 PP, 1/2 Pp, and 1/4 pp, which would produce 3 patterned to 1 non-patterned offspring. The genetic composition of the parents thus directly influences the phenotype ratios observed in their offspring.