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

A true breeding tall purple pea plant is crossed with a true breeding short white pea...

A true breeding tall purple pea plant is crossed with a true breeding short white pea plant. Purple and tall are dominant. What is the genotype and phenotype of the F1 offspring. If two of the F1 offspring are crossed, what will be the phenotypes and genotypes of the F2 offspring? A tall purple pea plant is crossed with a short white pea plant. What will the phenotype(s) and genotype(s) of the F1 offspring be?

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...

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)

A variety of pure-breeding snapdragons produces a tall plant with green seeds (WWSS). A second variety...

A variety of pure-breeding snapdragons produces a tall plant with green seeds (WWSS). A second variety of pure-breeding snapdragons produce a short plant with white seeds (wwss). The two varieties are crossed, and the resulting seeds are collected. All of the seeds are green and when planted, they produce all tall plants (WwSs). These tall F1 plants are allowed to self-fertilize. The results for seeds and plant height in the F2 generations are as follows. What is the ?2 value,...

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...

An experiment to determine the inheritance of flower color crossed two plants. A true breeding plant...

An experiment to determine the inheritance of flower color crossed two plants. A true breeding plant with purple flowers is crossed with a true breeding plant with white flowers. All the offspring (F1 generation) are white. The F1 plants are self-fertilized and produce the following progeny. 310 white flowered plants 90 plants with purple flowers. A. What are your assumptions for this problem. What is your hypothesis? B. Use a Chi-square test to determine whether those numbers fit a Mendelian...

A plant breeder crossed a red flowered hibiscus plant with a yellow flowered hibiscus, and all...

A plant breeder crossed a red flowered hibiscus plant with a yellow flowered hibiscus, and all of the offspring had orange flowers. a) Of what type of inheritance is this an example? Provide the genotypes of the parents. He then allowed the orange-flowered plants to self-fertilize. b) Create a Punnett square and predict the genotypes AND phenotypes of the offspring from the orange-flowered plants.

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...

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?

Purple flowers versus red flowers and long pollen versus round pollen are two traits in a...

Purple flowers versus red flowers and long pollen versus round pollen are two traits in a sweet pea plant. When a true breeding purple/long pollen plant is crossed with a true-breeding red/round pollen plant, the F1 generation offspring all have purple flowers and long pollen. When the F1 generation is bred to itself via human-directed fertilization, a ratio of 7 : 4.9 : 4.9 : 0.05, purple/long : red/long : purple/round : red/round is noted in the F2 generation. What...