This lesson contains 24 slides, with interactive quizzes, text slides and 3 videos.
Lesson duration is: 30 min
Items in this lesson
Sex-linked inheritance
TV4
Ch 19
Inheritance
Slide 1 - Slide
Multiple alleles
In some cases there are more than 2 alleles for the same gene. A good example of this is the AB0 blood groups. There are three alleles for this gene:
IA - This allele codes for antigen A on the cell membrane of red blood cells.
IB - This allele codes for antigen B on the cell membrane of red blood cells.
i - This allele codes for no antigens on the cell membrane of red blood cells.
Alleles IA and IB are co-dominant
Both IA and IB are dominant over allele i
Slide 2 - Slide
Slide 3 - Video
Which genotype(s) will lead to blood group B?
Slide 4 - Open question
A person has blood group A. Which genotype can this person NOT have?
A
IAIA
B
IAi
C
IAIB
D
ii
Slide 5 - Quiz
Complete on paper and hand in picture:
A person with blood group 0 has a child with a person with blood group AB. What is the chance this child will have blood group A?
Slide 6 - Open question
Complete on paper and hand in picture: In a family both grandmothers have blood group 0 and both grandfathers have blood group AB.
Calculate the chance of their grandchild getting blood group B.
Slide 7 - Open question
Learning objectives
You can distinguish between autosomal genes and sex-linked genes
You can explain how the X and Y chromosome determine sex
You can apply the laws of inheritance to sex-linked genes and crosses
Slide 8 - Slide
Look at this karyogram.
Which conclusion(s) can you draw?
22 pairs normal chromosomes
- autosomes
1 pair sex chromosomen
- XX --> girl/woman
- XY --> boy/man
Slide 9 - Slide
The X-chromosome holds way more genes than the Y-chromosome.
Some disease and syndromes linked to the X-chromosome:
- colour blindness
- hemophilia
- Duchenne muscular dystrophy
- deficiencies
Important gene on the Y-chromosome
SRY-gene: gene that regulates many other genes
If the SRY-gene is present a mammal embryo will develop into a male
Slide 10 - Slide
The gene coding for the proteins in the cones on your retina that help you distinguish between red and green is on the X-chromosome.
How many alleles of this gene will a woman have? Only write down a number.
Slide 11 - Open question
The gene coding for the proteins in the cones on your retina that help you distinguish between red and green is on the X-chromosome.
How many alleles of this gene will a man have? Only write down a number.
Slide 12 - Open question
There is a difference in the number of alleles between men and women for genes on the X-chromosome (sex-linked genes). Therefore we use a different notation.
XX for women
XY for men
On the X-chromosome we note in superscript which allele is present on that chromosome. Still a capital letter for dominant and small letter for recessive.
You still write down the Y-chromosome to show it is a male, but it will not have an allele in superscript.
Slide 13 - Slide
Slide 14 - Video
Complete on paper and upload a picture:
A heterozygous woman has children with a colourblind man. This form of colourblindness is sex-linked recessive. Draw the punnett square of this cross.
Slide 15 - Open question
Use your punnett square from the previous question:
What is the chance of a colourblind child?
A
0%
B
25%
C
50%
D
100%
Slide 16 - Quiz
Use the same punnett square again
They get a daughter, what is the chance she is colourblind?
A
0%
B
25%
C
50%
D
100%
Slide 17 - Quiz
Use the same punnett square again:
They get a son, what is the chance he is colourblind?
A
0%
B
25%
C
50%
D
100%
Slide 18 - Quiz
Important points sex-linked inheritance:
Women have two X-chromosomes and because of that two alleles
Men have one X-chromosome and because of that one allele
It is possible that the chances of a particular trait are different for men and women
READ carefully what they are asking
DONT FORGET to also write down the X and Y chromosomes and not only the alleles
If the trait is recessive males are more likely to have it than females
If the trait is dominant females are more likely to have it than males
Slide 19 - Slide
Identifying sex-linked inheritance
Men only have 1 allele. Men ALWAYS receive their X-chromosome from their mom
The allele that fathers have they will always pass on to their daughters.
In pedigrees with a sex-linked trait, the following rules apply:
- Dominant father = dominant daughters
- Recessive mother = recessive sons
Slide 20 - Slide
Slide 21 - Video
https:
Slide 22 - Link
Upload a picture of your answer: The grey symbols are people with a disease that is caused by a sex-linked gene. The red symbols are not sick. 7 and 8 are having a child, 11. 11 turns out to be a girl. What is the chance she has the disease?
Slide 23 - Open question
In Drosophila (fruit flies) there is a recessive allele that causes veinless wings. This gene is located on the X-chromosome. A female with veinless wings is crossed with a male with normal wings. The F1 offspring that come from this cross and used to cross with each other to form the F2 generation. Which percentage of the F2 females will have veinless wings?