Predict the phenotypic and genotypic ratios for crossing the following pea plants: a. short x short...

When Mendel crossed pea plants that were true breeding for purple flowers (PP) with pea plants...

When Mendel crossed pea plants that were true breeding for purple flowers (PP) with pea plants with white flowers (pp), all of the offspring had purple flowers.  When he let these offspring self-fertilize, he got purple and white second generation (F2) offspring in a phenotypic ratio of 3:1. But, we know that the genotypic ratio is really 1:2:1.  Why? (1 point)

1. You cross two homozygous parental pea plants. One has purple flowers and is tall, the...

1. You cross two homozygous parental pea plants. One has purple flowers and is tall, the other has white flowers and is short. All of the F1 plants are purple and short. What are the genotypes of the parents and the F1? If you were to cross the F1 generation, what genotypic and phenotypic ratio would you expect to see in the offspring?

Mendel crossed a pure breeding tall pea plant having red flowers with a pure breeding short...

Mendel crossed a pure breeding tall pea plant having red flowers with a pure breeding short pea plant having white flowers. All the F1 plants were tall with red flowers. He then selfed the F1 plants and the F2 plants had new combination of traits. Using a punnet square, show the phenotypes and genotypes of the F2 plants.

Which of these principles/laws explains why phenotypic and genotypic ratios can be different. a. Independent Assortment....

Which of these principles/laws explains why phenotypic and genotypic ratios can be different. a. Independent Assortment. b. Uniformity c. Dominance d. Equal segregation

1. Conduct a dihybrid cross of pea plants with the following combination of traits: Parent 1—Tall...

1. Conduct a dihybrid cross of pea plants with the following combination of traits: Parent 1—Tall plant with white flowers (pure breeding); Parent 2—Dwarf plant with purple flowers (pure breeding). i) What are the genotypes of the parents? ii) What are the genotypes of their gametes? iii) Portray a cross and determine the F1 generation. Use a Punnett’s square. What are the genotypes and phenotypes of their offspring? iv) Conduct a F2 cross with the offspring. What are the genotypes...

a) In radishes, the plants can be tall (allele T) or dwarf (allele t). Tall is...

a) In radishes, the plants can be tall (allele T) or dwarf (allele t). Tall is dominant. Root color can be red (allele RR), white (allele RW), or pink (heterozygote). A radish that is true-breeding for both red roots and tallness (RRRR TT) is crossed with a radish that is true-breeding for both white roots and being dwarf (RWRW tt). Write the genotype and phenotype for the F1 generation. b) Assume the two genes for plant height and root color...

Answer all 3 parts of the question. a) In radishes, the plants can be tall (allele...

Answer all 3 parts of the question. a) In radishes, the plants can be tall (allele T) or dwarf (allele t). Tall is dominant. Root color can be red (allele RR), white (allele RW), or pink (heterozygote). A radish that is true-breeding for both red roots and tallness (RRRR TT) is crossed with a radish that is true-breeding for both white roots and being dwarf (RWRW tt). Write the genotype and phenotype for the F1 generation. b) Assume the two...

A species of plant is discovered in which individual plants produce either white or purple flowers....

A species of plant is discovered in which individual plants produce either white or purple flowers. True breeding plants that have short stems with white flowers are crossed with true breeding plants that have tall stems and purple flowers. The resulting offspring all have tall stems with purple flowers. When one of these tall, purple-flowered offspring is crossed with a short, white-flowered plant, plants with the following characteristics were obtained in equal proportions. White flowers on tall stems Purple flowers...

In plants, tall stem is dominant and short stem is recessive. Which of the following would...

In plants, tall stem is dominant and short stem is recessive. Which of the following would be true about the plants produced from the pollination between two short stemmed plants. 1. 100 % of the plants in the next generation would be short. 2. We can't predict what the plants in the next generation will look like. 3. The plants in the next generation would have a different genotype than the parent plants 4. the plants in the next generation...

Assume that a cross is made between a heterozygous tall pea plant and a homozygous short...

Assume that a cross is made between a heterozygous tall pea plant and a homozygous short pea plant. Fifty offspring are produced with 30 tall and 20 short plants. A genetics student hypothesizes that the data fit a ratio of 1:1 and wants to test the hypothesis by performing a chi-square analysis. Should the hypothesis be accepted or rejected? Why? A) should be accepted, p value is greater than 0.05 B) should be accepted, p value is smaller than 0.05...