On the Punnett square, place 2 alleles (one for boc Fill in the offspring squares. All offspring will have Place an * beside each egg that resulted from crossing (see #3 above).

Please complete punnet square only

Transcribed Image Text:

### Possible Genotypes and Results: 4. On the Punnett square, place **2 alleles** (one for eyes, one for body) in each sperm and egg gamete. 5. Fill in the offspring squares. All offspring will have **4 alleles**. 6. Place an **"*"** beside each **egg** that resulted from crossing (see #3 above). 7. Place a **"✓"** beside each **offspring** in the Punnett square that is produced from these crossed over gametes. These are the **recombinant flies**. 8. Fill in the wing and body phenotypes for all of the offspring. 9. Note the phenotypes of the recombinants, and place a **"★"** next to those phenotypes in the class count data table. 10. Count the offspring; report results for class data. ### Diagram Explanation: On the right side of the text, there are visual aids to assist in understanding the process: 1. **Gametes Diagram**: There are two pairs of oval shapes representing sperm and egg gametes, with squiggle lines to indicate alleles for each gamete. 2. **Punnett Square Diagram**: Below the gametes is a Punnett square divided into four large squares, each with a smaller inner square divided into two sections. The left section of each inner square is labeled **"eyes"** and the right section is labeled **"body"**. This setup is designed to help visualize the crossing of alleles and the resultant genotypes and phenotypes of the offspring. The circles on the left side of the steps represent where you can place ticks or other marks as you complete each step in the process.

Transcribed Image Text:

--- ### Genetics and Meiosis in Drosophila **Generation: F₁** **Cross Phenotypes:** - Male (♂) with **ivory eyes, maize body** - Female (♀) with **wild eyes, wild type body** **Objective:** To determine the genotypic outcome of the F₂ generation. **Genotypes:** - **Male:** Xⁱ/m Y (ivory eyes, maize body) - **Female:** Xⁱ⁺/m⁺ Xⁱ/m (wild eyes, wild type body) **Chromosome Visualization:** We will visualize the genotypes using a simplified graphical representation of chromosomes: - **i** for ivory eyes - **i+** for wild (normal) eyes - **m** for maize body - **m+** for wild (normal) body **Diagrams:** Two chromosomes are depicted with labels to indicate the traits they carry. --- ### Steps to Determine Offspring Genotypes **1. Male Gamete Production:** Since crossing over does **not** occur in males during meiosis, all sperm will carry either Xⁱ/m or Y. **2. Female Gamete Production:** We will examine the eggs produced based on whether crossing over occurs between the body color and eye color alleles. - If crossing over **does not** occur: - Eggs will carry **Xⁱ⁺/m+** or **Xⁱ/m**. - If crossing over **does** occur: - Eggs will carry **recombinant genotypes** based on the point of crossover. --- **Questions to Consider:** 1. Since crossing over does **not** occur in males, all sperm will carry: **Xⁱ/m** or **Y**. 2. The eggs that will be produced if crossing over **does not** occur will carry: **Xⁱ⁺/m+** or **Xⁱ/m**. 3. The eggs produced if crossing over **does** occur will carry recombinant genotypes such as: **Xⁱ⁺/m** or **X<sup>i