Open Question
Black skin color is dominant to pink skin color in pigs. Two heterozygous black pigs are crossed.
What is the probability that their offspring will have pink skin?
2. Mendel's Laws of Inheritance
Monohybrid Cross
Back2. Mendel's Laws of Inheritance
Monohybrid Cross
- Multiple Choice
A black and white rabbit were mated. All F1 offspring were black, and the F2 offspring is made up of approximately ¾ black and ¼ white rabbits.
• Draw out two Punnet squares detailing both matings.
• Supposed two white F2 offspring were mated. What would be the phenotype and genotype of the F3 offspring? - Open Question
Green scales (G) in a particular species of fish is dominant over blue scales (g). The following crosses are carried out, producing the progeny shown. Write out all possible genotypes of the parents in each cross.
- Multiple Choice
Which of the following offspring ratios is expected from a Mendelian heterozygous cross examining one gene?
- Multiple Choice
Human albinism is a simple recessive trait. Determine the genotypes of the parents for each offspring combination
i. A wild-type male and albino female have 6 wild-type children
- Multiple Choice
Human albinism is a simple recessive trait. Determine the genotypes of the parents for each offspring combination
ii. A wild-type male and albino female have 8 children, 4 wild-type, and four albino
- Open Question
Compare and contrast the following terms:
monohybrid cross and test cross - Open Question
For the cross BB×Bb, what is the expected genotype ratio? What is the expected phenotype ratio?
- Open Question
A plant may have green, white, or green-and-white (variegated) leaves on its branches, owing to a mutation in the chloroplast that prevents color from developing. Predict the results of the following crosses:
Ovule Source Pollen Source
(a) Green branch x White branch
(b) White branch x Green branch
(c) Variegated branch x Green branch
(d) Green branch x Variegated branch - Open QuestionIn a type of parakeet known as a 'budgie,' feather color is controlled by two genes. A yellow pigment is synthesized under the control of a dominant allele Y. Budgies that are homozygous for the recessive y allele do not synthesize yellow pigment. At an independently assorting gene, the dominant allele B directs synthesis of a blue pigment. Recessive homozygotes with the bb genotype do not produce blue pigment. Budgies that produce both yellow and blue pigments have green feathers; those that produce only yellow pigment or only blue pigment have yellow or blue feathers, respectively; and budgies that produce neither pigment are white (albino).What are the genotype(s) and phenotype(s) of the F₁ progeny of the cross described in part (b)?
- Open QuestionDiscuss how Mendel's monohybrid results served as the basis for all but one of his postulates. Which postulate was not based on these results? Why?
- Open QuestionIn a type of parakeet known as a 'budgie,' feather color is controlled by two genes. A yellow pigment is synthesized under the control of a dominant allele Y. Budgies that are homozygous for the recessive y allele do not synthesize yellow pigment. At an independently assorting gene, the dominant allele B directs synthesis of a blue pigment. Recessive homozygotes with the bb genotype do not produce blue pigment. Budgies that produce both yellow and blue pigments have green feathers; those that produce only yellow pigment or only blue pigment have yellow or blue feathers, respectively; and budgies that produce neither pigment are white (albino).The cross of a green budgie and a yellow budgie produces offspring that are 12 green, 4 blue, 13 yellow, and 3 albino. What are the genotypes of the parents?
- Open QuestionIn a type of parakeet known as a 'budgie,' feather color is controlled by two genes. A yellow pigment is synthesized under the control of a dominant allele Y. Budgies that are homozygous for the recessive y allele do not synthesize yellow pigment. At an independently assorting gene, the dominant allele B directs synthesis of a blue pigment. Recessive homozygotes with the bb genotype do not produce blue pigment. Budgies that produce both yellow and blue pigments have green feathers; those that produce only yellow pigment or only blue pigment have yellow or blue feathers, respectively; and budgies that produce neither pigment are white (albino).If F₁ males and females are mated, what phenotypes are expected in the F₂, and in what proportions?
- Open QuestionIn a type of parakeet known as a 'budgie,' feather color is controlled by two genes. A yellow pigment is synthesized under the control of a dominant allele Y. Budgies that are homozygous for the recessive y allele do not synthesize yellow pigment. At an independently assorting gene, the dominant allele B directs synthesis of a blue pigment. Recessive homozygotes with the bb genotype do not produce blue pigment. Budgies that produce both yellow and blue pigments have green feathers; those that produce only yellow pigment or only blue pigment have yellow or blue feathers, respectively; and budgies that produce neither pigment are white (albino).A cross is made between a pure-breeding green budgie and a pure-breeding albino budgie. What are the genotypes of the parent birds?