Genetic Crosses and Phenotypic Ratios Explained

Understanding Genetic Crosses and Phenotypic Ratios

Phenotypic ratio of a monohybrid cross, Complete dominance- 3:1, monohybrid cross, incomplete dominance- 1:2:1, dihybrid cross, complete dominance&epistasis- 9:3:4.

A monohybrid cross is a genetic mix between two people with homozygous genotypes, or genotypes with completely dominant or completely recessive alleles, that produce opposite phenotypes for a particular genetic trait. This is called a homozygous cross.

A mating experiment between two organisms that are identically hybrid for two traits is referred to as a dihybrid cross. The term "hybrid" refers to an organism that is heterozygous, meaning that it possesses two distinct alleles at a specific genetic position or locus.

Only one allele from the genotype is present in the phenotype in complete dominance. In codominance, the phenotype reflects both genotype alleles. In incomplete dominance, the phenotype consists of a mix of the genotype's alleles.

When one gene's expression is altered (e.g., masked, inhibited, or suppressed) by the expression of one or more other genes, this condition is known as epistasis.

Final answer:

Expected phenotypic ratios for a monohybrid cross with complete dominance is 3:1, with incomplete dominance it is 1:2:1, and for a dihybrid cross with complete dominance and epistasis, the ratios can vary depending on the type of epistatic interaction.

Explanation:

When discussing phenotypic ratios for different genetic crosses, we can expect specific outcomes based on the types of crosses and the dominance patterns of alleles involved:

For a monohybrid cross where alleles exhibit complete dominance, the expected phenotypic ratio of offspring is 3:1, with three showing the dominant phenotype and one the recessive phenotype. This same ratio can be applied to each trait in a dihybrid cross that exhibits complete dominance minus epistasis.

For a monohybrid cross where alleles exhibit incomplete dominance, the expected phenotypic ratio is typically 1:2:1, consisting of one individual with the dominant phenotype, two with an intermediate phenotype, and one with the recessive phenotype.

In a dihybrid cross expressing complete dominance and epistasis, the proportion of offspring showing both dominant phenotypes would have to account for the epistatic interactions, which could modify the typical 9:3:3:1 dihybrid ratio into various other proportions, such as 9:7, 12:3:1, or 15:1, depending on the type of epistasis.

For example, in Mendel's experiments, the dihybrid cross between plants with yellow round seeds (YYRR) and green wrinkled seeds (yyrr) resulted in an F2 generation with a phenotypic ratio of 9:3:3:1 for yellow round, yellow wrinkled, green round, and green wrinkled seeds, respectively.

What phenotypic ratios would be expected for the following genetic crosses? - Monohybrid cross, alleles exhibit complete dominance: 3:1 - Monohybrid cross, alleles exhibit incomplete dominance: 1:2:1 - Dihybrid cross, alleles exhibit complete dominance and epistasis: 9:3:4
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