Notes from NEET topper

Law Of Independent Assortment

The Law of Independent Assortment is one of Gregor Mendel’s fundamental principles of inheritance, and it describes how different genes (traits) segregate independently of each other during the formation of gametes (sperm and egg cells). This law is based on Mendel’s experiments with pea plants and can be summarized as follows:

1. Allele Pairs:

For each inherited trait, an organism has two alleles, one inherited from each parent.

These two alleles may be the same (homozygous) or different (heterozygous).

2. Independent Assortment:

The Law of Independent Assortment states that the alleles of different genes segregate independently of each other during gamete formation.

This means that the assortment of alleles for one trait does not influence the assortment of alleles for another trait.

The random assortment of alleles for different traits results in the creation of various combinations in the offspring.

3. Genotype and Phenotype:

The genotype of an organism refers to the combination of alleles it possesses for multiple traits.

The phenotype of an organism refers to the observable traits resulting from the expression of those alleles.

The alleles an individual inherits for different traits will determine its genotype, and the genotype will, in turn, determine its phenotype.

Example:

Mendel’s experiments with pea plants included the study of two traits: flower color and seed color.

He had two alleles for flower color: one for purple flowers (P) and one for white flowers (p).

He also had two alleles for seed color: one for yellow seeds (Y) and one for green seeds (y).

When a plant had two different alleles for these two traits (heterozygous), its genotype could be PpYy.

During the formation of gametes, the alleles for flower color and seed color segregated independently.

This meant that the P allele for flower color could randomly combine with either the Y or y allele for seed color, resulting in four possible combinations in gametes: PY, Py, pY, and py.

The random assortment of these alleles in fertilization produced various combinations of traits in the offspring, leading to genetic diversity.



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