Title: Incomplete Dominance
1Incomplete Dominance
- Neither allele is completely dominant over the
other allele. - The phenotype is heterozygous
- A mixture or blending of the two
- What two colors do you think blended to
make grey?
2Incomplete DominanceEx Four-o clock
flowers
- Neither Red (R)
- or White (W) is dominant
- When a homozygous red flower (RR)
- mixes with a homozygous white flower (WW),
the alleles blend in the hybrid (RW) to produce
pink flowers
3How to Recognize Incomplete Dominance..
- The offspring is showing a 3rd phenotype (red
flower, white flower, and pink flower) - The trait in the offspring is a blend (mixing) of
the parental traits (red x white pink)
4 Incomplete Dominance Practice Problems
- A cross between a blue blahblah bird and a white
blahblah bird produces offspring that are silver.
The color of blahblah birds is determined by
just two alleles. - What are the genotypes of the parent blahblah
birds in the original cross? - What is/are the genotypes of the silver
offspring? - What would be the phenotypic ratios of offspring
produced by two silver blahblah birds?
5 Incomplete Dominance Practice Problems
- In northeast Kansas there is a creature know as a
wildcat. It comes in three colors, blue, red, and
purple. This trait is controlled by a single
locus gene with incomplete dominance. A
homozygous (BB) individual is blue, a homozygous
(bb) individual is red, and a heterozygous (Bb)
individual is purple. What would be the genotypes
and phenotypes of the offspring if a blue wildcat
were crossed with a red one? -
6 Incomplete Dominance Practice Problems
-
- Coat color in mice is incompletely
dominant. Yellow and white-colored mice are
homozygous, while cream-colored mice are
heterozygous. If two cream-colored mice mate,
what phenotypic ratio can we expect of their
offspring?
7Codominance
- Two equally dominant alleles are expressed at the
same time. - Heterozygous phenotype will have both phenotypes
visible
8 Codominance
- Ex Short Horn Cattle
- Homozygous red (RR)
- Homozygous white (WW)
- The offspring of will have both red and white
hairs (RW) - The offspring are heterozygous and called
roan
9 Codominance Practice Problems
- A cross between a black cat and a tan cat
produces a tabby pattern (black tan fur
together). What percent of kittens would have
tan fur if a tabby cat is crossed with a black
cat?
10 Codominance Practice Problems
- Roan cattle are the heterozygous hybrids of
a cross between a white bull and a red cow. If a
roan bull were crossed with a red cow, what would
be the possible phenotypes of their offspring? -
11Codominance
Human Blood types ABO are examples of
codominace. Blood types come from
three different alleles and therefore are
considered a multiple trait allele. The multiple
trait alleles are I , I , and i. I and I
both result in an antigen on the surface of red
blood cells however i is recessive and does not
have an antigen. An antigen stimulates the
production of antibodies.
A
B
A
B
12CodominanceGenotype Phenotype of Blood
13Sickle- Cell Anemia
- Co- dominance
- Caused by an abnormal
- Hemoglobin, the protein that
- red blood cells use to carry
- oxygen
- Normal hemoglobin is (RR)
- Sickle Cell shaped blood cells (SS)
- People who are carriers (heterozygous) for the
disease there is a mixture of both normal and
sickle cell (RS)
14 Problem Codominance
- Show the cross between an individual with
sickle-cell anemia and another who is a carrier
but not sick. Remember RR normal RS
carrier of sickle cell SS sickle cell
15 Problem CodominanceBlood Types
- Mrs. Clink is type A and Mr. Clink is type O.
They have three children named Matthew, Mark, and
Luke. Mark is type O, Matthew is type A, and
Luke is type AB. Based on this information - Mr. Clink must have the genotype ______
- Mrs. Clink must have the genotype ______ because
___________ has blood type ______ - Luke cannot be the child of these parents
because neither parent has the allele _____.
16 Problem CodominanceBlood Types
- Two parents think their baby was switched at the
hospital. Its 1968, so DNA fingerprinting
technology does not exist yet. The mother has
blood type O, the father has blood type AB,
and the baby has blood type B. - Mothers genotype _______
- Fathers genotype _______
- Babys genotype ______ or ________
- Punnett square showing all possible genotypes for
children produced by this couple -
- Was the baby switched?
17Partner Work ?Find a friend or two and work the
following genetic problems. Have fun and focus
on the task at hand!
18PRACTICE QUESTIONS
- 1. In a certain case a womans blood type
was tested to be AB. She married and her
husbands blood type was type A. Their children
have blood types A, AB, and B. What are the
genotypes of the parents? What are the genotypic
ratios of the children?
19- 2. In a certain breed of cow, the gene for red
fur, R, is codominant with that of white fur, W.
What would be the phenotypic genotypic ratios
of the offspring if you breed a red cow and a
white bull? What would they be if you breed a red
white cow with a red white bull?
20- 3. A rooster with grey feathers is mated with
a hen of the same phenotype. Among their
offspring 15 chicks are grey, 6 are black and 8
are white. - a. What is the simplest explanation for the
inheritance of these colors in chickens? -
- b. What offspring would you expect from the
mating of a grey rooster and a black hen?