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Karyotypes and Sex-Linked Traits

Karyotypes and Sex-Linked Traits. Karyotype Karyotype – a picture of chromosomes Autosomes: the first 22 homologous pairs of chromosomes. Autosomes

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Page 1: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Karyotypes and Sex-Linked Traits

Page 2: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Karyotype

Karyotype – a picture of chromosomes

Autosomes: the first 22 homologous pairs of chromosomes. Autosomes are the same for both males

and females.

 Sex chromosomes: determines the sex of the individual. The sex chromosomes are the 23rd pair

of chromosomes. 

Page 3: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Male of Female?

Female: XX Male: XY

Page 4: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Determining Gender Which parent determines the sex of an

offspring – DAD

Why?

All moms have the genotype XX. When egg cells are made, they will all carry a single X chromosome.

All dads have the genotype XY. When sperm cells are made, 50% will have an X chromosome and 50% will have a Y chromosome.

Therefore, males and females are born in roughly a 50:50 ratio

Page 5: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Diagnosing Disorders from Karyotypes Some disorders can be diagnosed by looking at a

person’s karyotype

Most are caused by nondisjuction during meiosis

Nondisjunction – failure of chromosomes to separate during meiosis

Disorders:

Down Syndrome (Trisomy 21) – individual has 3 of the 21st chromosome instead of 2

Turner Syndrome – female has only one X for her sex chromosome

Klinefelter’s Syndrome – male has or more extra X chromosome

Autosomal

Sex-Linked

Page 6: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Sex-Linked Traits SEX-LINKED TRAITS: those traits that are

controlled by genes on the X or Y chromosomes.

Most sex-linked traits are on the X chromosome.

The Y chromosome is much smaller than the X chromosome and only contains a few genes.

Ex:

Hemophelia

Colorblindness

Page 7: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Example

In humans, hemophilia is a sex-linked trait.  Having hemophilia is recessive (XH) to being normal (X). The heterozygous female is called a carrier.  Cross a carrier female with a normal male.

XHX x XY

Genotype Ratio:

Phenotype Ratio:

  XH X

X

   

Y

   

Page 8: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Example

Cross a carrier female with a male with hemophilia.

XHX x XHY

Genotype Ratio:

Phenotype Ratio:

  XH X

XH

   

Y

   

Page 9: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Example In humans, red-green colorblindness is a sex-linked trait. 

People with red-green colorblindness can not tell the difference between red and green.  Colorblindness is the result of a recessive allele. Cross a female with colorblindness with a male with normal vision.

XCXC x XY

Genotype Ratio:

Phenotype Ratio:

  XC XC

X

   

Y

   

Page 10: Karyotypes and Sex-Linked Traits. Karyotype  Karyotype – a picture of chromosomes  Autosomes: the first 22 homologous pairs of chromosomes.  Autosomes

Why are sex-linked traits more common in males than in females?

Because a male only has to inherit ONE recessive allele in order to get a sex-linked trait and a female has to inherit TWO recessive alleles in order to acquire the sex-linked trait.  It is easier to inherit one recessive allele than two. If the female only inherits one recessive allele, then they are a carrier but have the normal phenotype.

X’s are dominant to Y’s.

If female gets a “bad” from one parent, she could still get a “good” X, and become a carrier (has the trait but isn’t expressed). The only way for the female to express the trait is to inherit two “bad” X’s.

If a male gets a “bad” X, the only other sex chromosome is a Y. The “bad” X is dominant to the Y, therefore, the male will express the trait.