The following four plants have been identified as having the listed gametophytic self-incompatibility genotypes: Plant 1: S2S5 Plant 2: S5S7 Plant 3: S1S2 Plant 4: SiS7. Predict the progeny from the following crosses. a. Plant 1 x Plant 2 b. Plant 1 x Plant 3 c. Plant 1 x Plant 4 d. Plant 2 x Plant 4 e. Plant 4 x Plant 3
The following four plants have been identified as having the listed gametophytic self-incompatibility genotypes: Plant 1: S2S5 Plant 2: S5S7 Plant 3: S1S2 Plant 4: SiS7. Predict the progeny from the following crosses. a. Plant 1 x Plant 2 b. Plant 1 x Plant 3 c. Plant 1 x Plant 4 d. Plant 2 x Plant 4 e. Plant 4 x Plant 3
Human Anatomy & Physiology (11th Edition)
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Transcribed Image Text:**Title: Predicting Progeny from Plant Crosses Using Gametophytic Self-Incompatibility Genotypes**
The following four plants have been identified with specific gametophytic self-incompatibility genotypes:
- **Plant 1**: S₂S₅
- **Plant 2**: S₅S₇
- **Plant 3**: S₁S₂
- **Plant 4**: S₁S₇
**Objective**: Predict the progeny from the following crosses.
a. **Plant 1 x Plant 2**
b. **Plant 1 x Plant 3**
c. **Plant 1 x Plant 4**
d. **Plant 2 x Plant 4**
e. **Plant 4 x Plant 3**
**Explanation:**
These crossings are designed to study how different self-incompatibility alleles can affect the success of reproduction in plants. Understanding these genetic combinations helps predict which plant pairings might produce viable offspring, and is crucial for studying plant genetics and breeding strategies. Each plant is listed with specific self-incompatibility alleles, affecting their ability to cross-pollinate with each other.
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