Mendel's Pea Plant Experiment: Understanding Alleles and Flower Colors

What is Mendel's discovery regarding a new species of pea plant that produces white and blue flowers based on a single gene with two alleles? How does the inheritance of flower colors occur in the F1 and F2 generations?

Mendel's Pea Plant Experiment

Mendel finds a new species of pea plant that produces two different flower colors, white and blue, based on a single gene with two alleles. He crosses together two parents, a true-breeding white and a true-breeding blue flowered plant. All of the plants in the F1 generation have blue flowers.

Inheritance of Flower Colors

The fact that all F1 offspring have blue flowers suggests that blue is the dominant allele (B) and white is the recessive allele (b). The parental generation is represented as BB (true-breeding blue) and bb (true-breeding white). When crossed, their offspring have a Bb genotype, expressing the blue phenotype.

F2 Generation

To determine the proportion of homozygous blue F2 offspring, we cross two F1 plants (Bb x Bb). Using a Punnett square, we can calculate the genotypes of the F2 generation:

  • BB (25%): homozygous blue
  • Bb (50%): heterozygous blue
  • bb (25%): homozygous white
← The power of practical work in science education What happens to stomata in daylight hours →