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INET Lab Genetics Worksheet Report Template Student: Email: Date: For each correctly conducted genetics problem, you receive 5 points for a maximum 20 points. All Punnett squares must be shown. 1. There are 3 alleles controlling the ABO blood types. IA and IB are codominant genes so that the combination IAIB produces the AB blood type. The third allele, (i) is recessive to the other two alleles. Show your work for each cross. Indicate which of these parents could produce the given child. The first one is provided with answers as an example. (HINT: Do not forget that a heterozygous versus a homozygous blood type may yield different results. ) a) Parent A x AB Child IB B IA IA IA IA IA IB IA IA IA IA IB IA IB IA IA IA IA IB i IA i IB i Produce Child of Type? No Produce Child of Type? © Access Learning Systems 2 b) Parent Child A x O A Produce Child of Type? Produce Child of Type? © Access Learning Systems 3 c) Parent Child A x B O Produce Child of Type? Produce Child of Type? Produce Child of Type? Produce Child of Type? d) Parent Child A x AB O © Access Learning Systems 4 Produce Child of Type? Produce Child of Type? © Access Learning Systems 5 e) Parent Child B x B O Produce Child of Type? Produce Child of Type? Produce Child of Type? f) Parent Child AB x AB A Produce Child of Type? © Access Learning Systems 6 2. The allele for albinism (a) is recessive to the allele for normal pigmentation (A). A normally pigmented woman whose father is an albino marries an albino man whose parents are normal. They have three children, two normal and one albino. Give the genotypes for each person listed. Prove your answer. 8 Maternal Grandmother Father 6 9 Maternal Grandfather Mother Child 1 8 7 Paternal Grandmother 5 6 Paternal Grandfather 7 5 4 1 4 3 Relationship 3 2 # 2 1 Child 2 9 Genotype(s) Child 3 a) Show the cross of the paternal grandparents. (HINT: What must their genotypes be to produce and albino child? ) b) What are the possible genotypes of the maternal grandmother? © Access Learning Systems 7 © Access Learning Systems 8 Show the cross of the mother and father. 3. In horses, black coat color is influenced by the dominant allele (B), and chestnut coat color by the recessive allele (b). a) What color horse would you use to find out the genotype of a black trotter? b) Give the genotype and phenotype. Show your work and discuss the reason you would know the genotype of the black horse. Possible Allele Pairings with Homozygous Dominant Trotter F1 offspring probabilities: Possible Allele Pairings with Heterozygous Trotter F1 offspring probabilities: Reasoning: © Access Learning Systems 9 4. In Drosophila, the fruit fly, white eyes are determined by a recessive X­linked gene, and the wild­type or normal brick­ red eyes are due to its dominant allele. Use symbols of the following types: X rY = a white­eyed male; XRXR = a homozygous normal red female. a) What offspring can be expected from a cross of a white­eyed male and a homozygous normal female? b) Show the genotypes and list the phenotypes of the F1 offspring. F1 Cross F1 offspring probabilities: Male Female Red­Eyed White­Eyed c) Now, cross the F1 offspring. Show the genotypes and list the phenotypes of the F 2 offspring. F2 Cross F2 offspring probabilities: Male Red­Eyed White­Eyed Female

INET Lab
Genetics Worksheet Report Template
Student:
Email:
Date:

For each correctly conducted genetics problem, you receive 5 points for a maximum 20 points. All Punnett squares must
be shown.
1. There are 3 alleles controlling the ABO blood types. IA and IB are codominant genes so that the combination IAIB
produces the AB blood type. The third allele, (i) is recessive to the other two alleles. Show your work for each cross.
Indicate which of these parents could produce the given child.
The first one is provided with answers as an example.
(HINT: Do not forget that a heterozygous versus a homozygous blood type may yield different results. )
a)

Parent
A x AB

Child
IB
B

IA

IA

IA IA

IA IB

IA

IA IA

IA IB

IA

IB

IA

IA IA

IA IB

i

IA i

IB i

Produce Child of Type?

No

Produce Child of Type?

© Access Learning Systems

2

b)

Parent

Child

A x O

A

Produce Child of Type?

Produce Child of Type?

© Access Learning Systems

3
c)

Parent

Child

A x B

O

Produce Child of Type?

Produce Child of Type?

Produce Child of Type?

Produce Child of Type?

d)

Parent

Child

A x AB

O

© Access Learning Systems

4

Produce Child of Type?

Produce Child of Type?

© Access Learning Systems

5
e)

Parent

Child

B x B

O

Produce Child of Type?

Produce Child of Type?

Produce Child of Type?

f)

Parent

Child

AB x AB

A

Produce Child of Type?

© Access Learning Systems

6
2. The allele for albinism (a) is recessive to the allele for normal pigmentation (A). A normally pigmented woman whose
father is an albino marries an albino man whose parents are normal. They have three children, two normal and one
albino. Give the genotypes for each person listed. Prove your answer.

8

Maternal Grandmother
Father

6

9

Maternal Grandfather

Mother
Child 1

8

7

Paternal Grandmother

5

6

Paternal Grandfather

7

5

4

1

4

3

Relationship

3

2

#
2

1

Child 2

9

Genotype(s)

Child 3

a) Show the cross of the paternal grandparents.

(HINT: What must their genotypes be to produce and albino child? )

b) What are the possible genotypes of the maternal grandmother?

© Access Learning Systems

7

© Access Learning Systems

8
Show the cross of the mother and father.

3. In horses, black coat color is influenced by the dominant allele (B), and chestnut coat color by the recessive allele (b).
a) What color horse would you use to find out the genotype of a black trotter?

b) Give the genotype and phenotype. Show your work and discuss the reason you would know the genotype of the
black horse.

Possible Allele Pairings with Homozygous Dominant Trotter

F1 offspring probabilities:

Possible Allele Pairings with Heterozygous Trotter

F1 offspring probabilities:

Reasoning:

© Access Learning Systems

9
4. In Drosophila, the fruit fly, white eyes are determined by a recessive X­linked gene, and the wild­type or normal brick­
red eyes are due to its dominant allele. Use symbols of the following types: X rY = a white­eyed male; XRXR = a
homozygous normal red female.
a) What offspring can be expected from a cross of a white­eyed male and a homozygous normal female?

b) Show the genotypes and list the phenotypes of the F1 offspring.
F1 Cross

F1 offspring probabilities:
Male

Female

Red­Eyed
White­Eyed

c) Now, cross the F1 offspring. Show the genotypes and list the phenotypes of the F 2 offspring.
F2 Cross

F2 offspring probabilities:
Male
Red­Eyed
White­Eyed

Female

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