Refer to Ear 2 sample data only: What epistatic model best explains the color phenotypes observed? Explain specifically what evidence you have to support this (ex: what were your observed phenotype ratios, which genotypes would produce which phenotypes).

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Refer to Ear 2 sample data only: What epistatic model best explains the color phenotypes observed? Explain specifically what evidence you have to support this (ex: what were your observed phenotype ratios, which genotypes would produce which phenotypes).

**Title: Dihybrid Crosses Relative to Kernel Color Evaluation**

This table presents data from exercises on dihybrid crosses, specifically focusing on kernel color variations. The results are collected from six different groups, each performing two exercises on distinct ears of corn.

### Table Description:

- **Group Number**: Represents the six distinct groups conducting the exercises.
  
- **EAR 1 (Exercise 1)**: 
  - **Categories**: Purple Smooth, Purple Wrinkled, Yellow Smooth, Yellow Wrinkled.
  - Data shows the number of kernels in each category per group.
  - **ALL** column summarizes the total for each group.

- **EAR 2, 3, 4 (Exercise 2)**: 
  - VARIOUS CATEGORIES:
    - **EAR 2**: Yellow, Red, Purple.
    - **EAR 3**: Red, White.
    - **EAR 4**: Yellow, Purple.
  - Each exercise has its own set of kernel color categories.
  - **ALL** column indicates the total counts for each group per exercise.

### Summary and Totals:

- **ALL CLASS TOTALS**: Provides cumulative data across all groups for each category.
  - **EAR 1 TOTALS**: 
    - Purple Smooth: 2900
    - Purple Wrinkled: 1100
    - Yellow Smooth: 1134
    - Yellow Wrinkled: 382
    - Overall total for EAR 1: 5516
  
  - **EAR 2 TOTALS**: 
    - Yellow: 4469
    - Red: 188
    - Purple: 818
    - Overall total for EAR 2: 5475

  - **EAR 3 TOTALS**: 
    - Red: 3106
    - White: 2270
    - Overall total for EAR 3: 5376

  - **EAR 4 TOTALS**: 
    - Yellow: 5505
    - Purple: 1350
    - Overall total for EAR 4: 6855

This dataset is essential for understanding the inheritance of kernel color traits through dihybrid crosses, allowing for practical insights into genetic dominance and variation.
Transcribed Image Text:**Title: Dihybrid Crosses Relative to Kernel Color Evaluation** This table presents data from exercises on dihybrid crosses, specifically focusing on kernel color variations. The results are collected from six different groups, each performing two exercises on distinct ears of corn. ### Table Description: - **Group Number**: Represents the six distinct groups conducting the exercises. - **EAR 1 (Exercise 1)**: - **Categories**: Purple Smooth, Purple Wrinkled, Yellow Smooth, Yellow Wrinkled. - Data shows the number of kernels in each category per group. - **ALL** column summarizes the total for each group. - **EAR 2, 3, 4 (Exercise 2)**: - VARIOUS CATEGORIES: - **EAR 2**: Yellow, Red, Purple. - **EAR 3**: Red, White. - **EAR 4**: Yellow, Purple. - Each exercise has its own set of kernel color categories. - **ALL** column indicates the total counts for each group per exercise. ### Summary and Totals: - **ALL CLASS TOTALS**: Provides cumulative data across all groups for each category. - **EAR 1 TOTALS**: - Purple Smooth: 2900 - Purple Wrinkled: 1100 - Yellow Smooth: 1134 - Yellow Wrinkled: 382 - Overall total for EAR 1: 5516 - **EAR 2 TOTALS**: - Yellow: 4469 - Red: 188 - Purple: 818 - Overall total for EAR 2: 5475 - **EAR 3 TOTALS**: - Red: 3106 - White: 2270 - Overall total for EAR 3: 5376 - **EAR 4 TOTALS**: - Yellow: 5505 - Purple: 1350 - Overall total for EAR 4: 6855 This dataset is essential for understanding the inheritance of kernel color traits through dihybrid crosses, allowing for practical insights into genetic dominance and variation.
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"Inheritance, traits, DNA, genes, proteins, and chromosomes are all aspects of genetics." Everyone wonders why brothers and sisters resemble one another so much. This is when genetics comes into play. The transfer of traits from parents to offspring is referred to as heredity.

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