Understanding Genetics: Predicting Phenotypes in a Dihybrid Cross

In summary, the cross between parents with genotypes LlHh and llHh results in a 3:3:2 ratio of phenotypes for long hair, short hair, and no hair. This can be determined by using the alleles L, l, H, and h, where L and H dominate over l and h respectively.
  • #1
shawonna23
146
0
1. Homework Statement
In an organism, two separate genes influence the length of the hair. The allele for long hair, L, dominates the allele for short hair, l. The allele for hair, H, dominates the hairless allele, h. In the cross between parents of genotype LlHh and llHh, what ratio of phenotypes would you expect to see?


2. Homework Equations
LlHh x llHh----> LH, Lh, lH, lh x lH, lh, lH, lh


3. The Attempt at a Solution

3:3:2 ratio (3 long hair, 3 short hair, 2 no hair)
 
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  • #2
Yep, I worked out 3/8 long hair, 3/8 short, and 2/8 bald... which is the 3:3:2 ratio as well... I feel pretty confident in that answer.
 
  • #3
thanks so much...just wanted to be sure!
 

Related to Understanding Genetics: Predicting Phenotypes in a Dihybrid Cross

What is a dihybrid cross?

A dihybrid cross is a genetic experiment that involves crossing two individuals that differ in two distinct traits. This allows scientists to study the inheritance patterns of these traits and determine how they are passed down from parents to offspring.

What is the purpose of a dihybrid cross?

The purpose of a dihybrid cross is to study the inheritance patterns of two different traits and determine if they are inherited independently or if they are linked together. This can provide valuable information about the genes responsible for these traits and how they are passed down from generation to generation.

How is a dihybrid cross performed?

A dihybrid cross is performed by crossing two individuals that are heterozygous for both traits of interest. This means that each individual carries two different versions of each gene. The offspring of this cross will then be analyzed to determine the inheritance patterns of the two traits.

What is the difference between a dihybrid cross and a monohybrid cross?

A monohybrid cross involves the study of one trait, while a dihybrid cross involves the study of two traits. In a monohybrid cross, only one set of alleles is considered, while in a dihybrid cross, two sets of alleles are examined simultaneously.

What can be learned from a dihybrid cross?

A dihybrid cross can provide information about the inheritance patterns of two different traits and the potential linkage between them. It can also help determine the probability of certain traits appearing in future generations and provide insight into the genetic makeup of the individuals involved in the cross.

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