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Dihybrid cross is the cross between two different genes that differ in two observed traits.

Dihybrid cross is the cross between two different genes that differ in two observed traits. Gregor Johann Mendel was the first person who discovered the basic principles of heredity during the mid-19th century. Hence, he is known as the “Father of Modern Genetics”. He observed a pattern of inheritance from one generation to another by conducting experiments on the pea plants in his garden.  Mendel’s Laws Mendel laid the basic groundwork in the field of genetics and eventually proposed the laws of inheritance. Law of Segregation, Law of Independent Assortment and Law of Dominance are the three laws of inheritance proposed by Gregor Mendel. These laws came into existence from his experiments on pea plants with a variety of traits. Mendel’s Experiment Inference By monohybrid cross only, Mendel could first study the inheritance of one gene in the plant. He considered only one character (plant height) on pairs of pea plants with one contrasting trait. Later also, through the same process of dihybrid cross, Mendel studies the inheritance of two genes in plants. Mendel studied the subsequent seven characters with contrasting traits:

Dihybrid Cross A hybridization is a breeding experiment between two organisms which are identical hybrids for 2 traits. In other words, a dihybrid cross is a cross between two organisms, with both being heterozygous for two different traits. The individuals in this type of trait are homozygous for a specific trait. These traits are determined by DNA segments called genes. In a hybridization, the parents carry different pairs of alleles for every trait. One parent carries homozygous dominant allele, while the other one carries homozygous recessive allele. The offsprings produced after the crosses in the F1 generation are all heterozygous for specific traits. Dihybrid Cross Examples Mendel took a pair of contradicting traits together for crossing, for example colour and the shape of seeds at a time. He chose the green wrinkled seed and round-yellow seed and crossed them. He obtained only round-yellow seeds in the F1 generation. This indicated that round shape and yellow colour of seeds are dominant in nature. Meanwhile, the wrinkled shape and green colour of seeds are different traits. Then, F1 progeny was self-pollinated. This resulted in four different combinations of seeds in the F2 generation. They were wrinkled-yellow, round-yellow, wrinkled-green seeds and round-green within the phenotypic ratio of 9:3:3:1. During monohybrid cross of these traits, he observed the same pattern of dominance and inheritance. The phenotypic ratio 3:1 of yellow and green colour and of round and wrinkled seed shape during hybridization was retained in hybridization as well. For example, consider“Y” for yellow colour seed and “y” for green color seed, “R” for round shaped seeds and “r” for wrinkled seed shape. Thus, the parental genotype can be concluded as “YYRR” (yellow-round seeds) and “yyrr” (green-wrinkled seeds).

Ans –  Dihybrid cross is the cross between two different genes that differ in two observed traits.

Ans – Gregor Johann Mendel was the first person who discovered the basic principles of heredity during the mid-19th century. Hence, he is known as the “Father of Modern Genetics”. He observed a pattern of inheritance from one generation to another by conducting experiments on the pea plants in his garden. Mendel laid the basic groundwork in the field of genetics and eventually proposed the laws of inheritance.

Ans – Mendel studied the subsequent seven characters with contrasting traits:

Ans – Mendel laid the basic groundwork in the field of genetics and eventually proposed the laws of inheritance. Law of Segregation, Law of Independent Assortment and Law of Dominance are the three laws of inheritance proposed by Gregor Mendel. These laws came into existence from his experiments on pea plants with a variety of traits.

Ans – Law of Segregation, Law of Independent Assortment and Law of Dominance are the three laws of inheritance proposed by Gregor Mendel.

Ans – Dihybrid Cross is easy to understand using Punnett Square dimensions of 16.

Ans – Mendel chose pea plant for all his experiments.

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