A pure-breeding wild-type daisy is golden in color. A breeder develops two independent pure-breeding mutant daisy stocks, mutant #1 has white flowers and mutant #2 has pale yellow flowers. A cross of mutant #1 (white flowers) to mutant #2 (yellow flowers) produced 100 plants all with golden flowers. The F1 plants were allowed to self-fertilize and produced 277 F2 plants with the following phenotypes and number of plants.

F2= 157 golden flower plants 71 white flowered plants 49 yellow flowered plants

When the F2 yellow flowered plants were allowed to self-fertilize. yellow and white flowered plants resulted.

A. How many gene(s) determine flower color in daisy? (Explain your answer)

B. Define symbols for this cross, then give the genotypes of the mutant #1 (white color) stock and the mutant #2 (yellow color) stock.

C. Using the symbols defined in part B. explain the results obtain in the F2 offspring of the cross between F1 Times F1 described above.

In a particular type of wildflower, WT color is deep purple, andthe plants are true?breeding. In one

true?breeding mutant stock, the flowers have reducedpigmentation resulting in a lavender coloration.

In a different true breeding mutant stock, the flowers lackpigmentation and are therefore white.

When a lavender?flowered plant from the first mutant stock wascrossed to a white flowered plant

from the second mutant stock all the resulting F1 generation haddeep purple flowers. The F1 plants

were permitted to self fertilize and produced an F2 generation.The 277 F2 plants were 157 deep

purple : 71 white : 49 lavender.

A] From these results explain using appropriate genetic notationand drawing all crosses explain the

mode of inheritance / gene interaction.

B] What progeny phenotypes and their frequencies would beproduced if the lavender plants from the

above F2 were allowed to self fertilize.

2)Found on chromosome 4 in humans, two blood group alleles, LMand LN, are equally expressed in

heterozygous individuals. These individuals are said to be inthe MN blood group. Assume that a man

and a woman, both in the MN blood group, have a child.

A] What is the probability that this child will be a girl and bein the MN blood group (2.5 marks)?

B] What is the probability that the next two children born tothis couple will be in the MN blood group?

In a particular type of wildflower, WT color is deeppurple, and the plants are true?breeding. In one

true?breeding mutant stock, the flowers have reducedpigmentation resulting in a lavender coloration.

In a different true breeding mutant stock, theflowers lack pigmentation and are therefore white.

When a lavender?flowered plant from the first mutantstock was crossed to a white flowered plant

from the second mutant stock all the resulting F1generation had deep purple flowers. The F1 plants

were permitted to self fertilize and produced an F2generation. The 277 F2 plants were 157 deep

purple : 71 white : 49 lavender.

A] From these results explain using appropriategenetic notation and drawing all crosses explain the

mode of inheritance / gene interaction.

B] What progeny phenotypes and their frequencieswould be produced if the lavender plants from the

above F2 were allowed to self fertilize.

2)Found on chromosome 4 in humans, two blood groupalleles, LM and LN, are equally expressed in

heterozygous individuals. These individuals are saidto be in the MN blood group. Assume that a man

and a woman, both in the MN blood group, have achild.

A] What is the probability that this child will be agirl and be in the MN blood group (2.5 marks)?

B] What is the probability that the next two childrenborn to this couple will be in the MN blood group?

Two true-breeding white strains of the plant Smellgood prettiae were crossed and the F1 progeny were all white. When the F1 plants were allowed to self-fertilize, 126 white-flowered plants and 33 purpled-flowered plants were produced. (15 points)

1.Describe the inheritance pattern that produces these flower colors.

2.Diagram the P1 and F1 crosses showing genotype and phenotype.

3.Propose a biochemical pathway to explain this inheritance pattern.