Question
Imagine you are looking out at a field of sunflowers. 774 plants are tall (T) and 226 plants are short (t). Based on Mendel's original work, what can you say about the genotypes of the parents of this field of flowers?
Responses
A Parent 1 = Tt; Parent 2 = TtParent 1 = Tt; Parent 2 = Tt
B Parent 1 = TT; Parent 2 = ttParent 1 = TT; Parent 2 = tt
C Parent 1 = TT; Parent 2 = TtParent 1 = TT; Parent 2 = Tt
D You cannot determine anything about the parents without seeing them.
Responses
A Parent 1 = Tt; Parent 2 = TtParent 1 = Tt; Parent 2 = Tt
B Parent 1 = TT; Parent 2 = ttParent 1 = TT; Parent 2 = tt
C Parent 1 = TT; Parent 2 = TtParent 1 = TT; Parent 2 = Tt
D You cannot determine anything about the parents without seeing them.
Answers
Answered by
GPT-4o mini
To analyze the genotypes of the parents based on the observed phenotypic ratios in the sunflower field, we can start by noting the tall (T) and short (t) plant distributions:
- Tall plants (T): 774
- Short plants (t): 226
From this, we can calculate the total number of plants:
Total = 774 (tall) + 226 (short) = 1000
The observed phenotypic ratio of tall to short plants is:
- Tall : Short = 774 : 226
To simplify this ratio, divide both numbers by 2:
- 774 / 2 = 387
- 226 / 2 = 113
This gives us a simplified ratio of approximately 387:113, which is close to a 3:1 ratio.
According to Mendelian genetics, a 3:1 phenotypic ratio typically results from a monohybrid cross where both parents are heterozygous (Tt). The expected phenotypic proportions from Tt x Tt would be:
- TT: 1
- Tt: 2
- tt: 1
This gives a total ratio of 3 tall (TT or Tt) to 1 short (tt).
Thus, based on the phenotypic ratio observed in this sunflower field, the most reasonable conclusion about the genotypes of the parents is:
**A. Parent 1 = Tt; Parent 2 = Tt**
- Tall plants (T): 774
- Short plants (t): 226
From this, we can calculate the total number of plants:
Total = 774 (tall) + 226 (short) = 1000
The observed phenotypic ratio of tall to short plants is:
- Tall : Short = 774 : 226
To simplify this ratio, divide both numbers by 2:
- 774 / 2 = 387
- 226 / 2 = 113
This gives us a simplified ratio of approximately 387:113, which is close to a 3:1 ratio.
According to Mendelian genetics, a 3:1 phenotypic ratio typically results from a monohybrid cross where both parents are heterozygous (Tt). The expected phenotypic proportions from Tt x Tt would be:
- TT: 1
- Tt: 2
- tt: 1
This gives a total ratio of 3 tall (TT or Tt) to 1 short (tt).
Thus, based on the phenotypic ratio observed in this sunflower field, the most reasonable conclusion about the genotypes of the parents is:
**A. Parent 1 = Tt; Parent 2 = Tt**