Genetics Chalkboard Challenge
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Transcript Genetics Chalkboard Challenge
Genetics Challenge
• As a group, quietly discuss each
question and agree upon one
correct answer. The group with the
most correct answers will win.
1 of 20) Traits blend together during
which type of dominance?
2 of 20) Examine this pedigree for a sexlinked recessive disorder. Using the letter
“H”, fill in every person mentioned.
3 of 20) Which type of dominance is
blood type?
4 of 20) Below is a pedigree that follows autosomal
recessive rules. What are the combined chances
that Ann and Michael have 3 more unhealthy
children?
5 of 20) Which genotype(s) will result
in type B blood?
6 of 20) While on a nature walk, you encounter a
beautiful Orange flower. You also see beautiful Blue
flowers. Out of curiousity, you decide to mate the Blue
and Orange flowered plants and are stunned to create
Green flowered offspring.
Which type of inheritance is this?
X
=
7 of 20) Mendel’s peas grew tall or short.
Cross two heterozygous plants.
(you should know which trait is dominant)
A)
What is the
probability of
growing
homozygous
plants?
B)
What is the
genotype of
short plants?
8 of 20) From the previous problem, what
is the probability of growing 3 tall plants?
9 of 20) How are Tom and Carla related?
10 of 20) A man, whose mother was a
hemophiliac, marries a woman with no history
of hemophilia in her family. In order, they had a
boy and a girl. Construct a pedigree of this
family and label the genotypes of all mentioned.
Hint: Hemophilia is recessive sex-linked.
11 of 20) Red and white cattle coat shows
codominance and create a roan cow when they
reproduce. Cross a roan cow and a red bull.
What is the probability
of having a
heterozygous offspring?
12 of 20) Assuming autosomal recessive, what is
Sam’s genotype?
13 of 20) Match the diseases with the type
of inheritance.
Inheritance Patterns:
Autosomal recessive
Diseases:
A) PKU
B) Hemophilia
Autosomal dominant
C) Huntington’s disease
D) Colorblindness
E) Cystic fibrosis
Sex-Linked
F) Familial hypercholestmia (FH)
14 of 20) List the genotypes of every
person in this autosomal recessive
pedigree. Use the letter H or h.
15 of 20) Two part question:
A. How many blood type alleles exist?
B. Name them.
16 of 20) Pretend that purple flowers and
fuchsia flowers blend to make yellow flowers.
Cross a yellow flower parent with a purple
flowered parent. What’s the odds of producing a
yellow flowered offspring?
?
17 of 20) Assuming autosomal recessiveness,
what is Alan’s genotype?
18 of 20) How many different phenotypes
are possible when a heterozygous type A
and type AB couple reproduce?
19 of 20) From the previous problem, what
is the probability of having type O blood?
20 of 20) Grab Bag: What species of animal was the
legendary Paul Bunyan’s pet?
Exchange
Your
Answers
1 of 20) Traits blend together during
which type of dominance?
2 of 20) Examine this pedigree for a sex-linked disorder.
Using the letter “H”, fill in every person mentioned.
XH X?
Xh Y
XH Y
XH
Y
XH
Xh
Y
Xh
XH Y
XH Y
3 of 20) Which type of dominance is
blood type?
4 of 20) Below is a pedigree that follows
autosomal recessive rules. What are the chances
that Ann and Michael have 3 unhealthy children?
X
X
5 of 20) Which genotype(s) will result
in type B blood?
6 of 20) While on a nature walk, you encounter a
beautiful Orange flower. You also see beautiful Blue
flowers. Out of curiosity, you decide to mate the Blue
and Orange flowered plants and are stunned to create
Green flowered offspring.
Which type of inheritance is this?
X
=
7 of 20) Mendel’s peas grew tall or short.
Cross two heterozygous plants.
(you should know which trait is dominant)
A)
What is the
probability of
growing
homozygous
plants?
B)
What is the
genotype of
short plants?
8 of 20) From the previous problem, what
is the probability of growing 3 tall plants?
9 of 20) How are Tom and Carla related?
10 of 20) A man, whose mother was a hemopiliac,
marries a woman with no history of hemophilia in her
family. In order, they had a boy and a girl. Construct a
pedigree of this family and label the genotypes of all
mentioned. Hint: Hemophilia is sex-linked.
Not mentioned. Does
not need to be included.
D
man
D
D
woman
D
11 of 20) Red and white cattle coat shows
codominance and create a roan cow when they
reproduce. Cross a roan cow and a red bull.
What is the probability of
having a heterozygous
offspring?
12 of 20) Assuming autosomal
recessive, what is Sam’s genotype?
13 of 20) Match the diseases with the type
of inheritance.
Inheritance Patterns:
Diseases:
Autosomal recessive
A) PKU
A) PKU
B) Hemophilia
E) Cystic fibrosis
C) Huntington’s disease
Autosomal dominant
D) Colorblindness
C) Huntington’s disease
E) Cystic fibrosis
F) FH
F) Familial hypercholestmia (FH)
Sex-Linked
B) Hemophilia
D) Colorblindness
13 of 20) Match the diseases with the type
of inheritance.
Autosomal recessive
PKU
Cystic fibrosis
Autosomal dominant
Huntington’s disease
FH
Sex-Linked
Hemophilia
Colorblindness
14 of 20) List the genotypes of every
person in this autosomal recessive
pedigree. Use the letter H or h.
15 of 20) Two part question:
A. How many blood type alleles exist?
B. Name them.
16 of 20) Pretend that purple (PP) flowers and fuchsia
(FF) flowers blend to make yellow flowers (PF).
Cross a yellow flower (PF) parent with a purple
flowered (PP) parent. What’s the odds of producing a
yellow flowered offspring?
17 of 20) What is Alan’s genotype?
18 of 20) How many different phenotypes
are possible when a heterozygous type A
and type AB couple reproduce?
19 of 20) From the previous problem, what
is the probability of having type O blood?
20 of 20) Grab Bag: What species of animal was the
legendary Paul Bunyan’s pet?