1. Sex-Linked Genes Ms. Klinkhachorn February 14, 2011 AP Biology

2. Free Response Question Quick Write 15 minutes The unit of genetic organization in all living organisms is the chromosome. a)Describe the structure and function of the parts of a eukaryotic chromosome. You may wish to include a diagram as part of your description b)Describe the adaptive (evolutionary) significance of organizing genes into chromosomes

3. Using the Rubric Grade your neighbor’s essay and put a score on it Grade your own essay and put a score on it.

4. The Chromosomal Basis of Sex Two types of sex chromosomes – X and Y – Y is a lot smaller XX is female, XY is male – Females only pass on an x, but males can pass on an x or a y chromosome Your dad determines your sex It is all chance. 50-50 chance

6. SRY gene Found on the Y chromosome Stands for sex-determining region of Y – Responsible for the development of the testes If no SRY gene, no testes  ovaries (even if you have a y chromosome) Example of pleiotropy

7. Sex-linked Genes Genes located on sex chromosomes are called sex-linked genes – Specifically on the X chromosome (the y doesn’t have many genes on it) – Most chromosomes on the sex chromosomes have nothing to do with your actual sex Mom can pass on sex-linked alleles to boys and girls Dad can only pass on sex-linked alleles to girls

8. Recessive Sex-Linked Alleles Girls will exhibit the phenotype if they are homozygous recessive (have 2 alleles) – If they are heterozygous they are a carrier Boys will exhibit the phenotype if they have even 1 allele Are more sex-linked disorders found in males or females?

9. Examples of Sex-Linked Disorders Colorblindness – Cannot see certain colors Duchenne muscular dystrophy – Progressive weakening of the muscle and loss of coordination – Usually causes death in the 20s Hemophilia – Don’t have the gene necessary to make a protein responsible for blood clotting

13. X-inactivation Females have 2 X chromosomes, but don’t want double the dosage – During embryonic development, a randomly chosen X chromosome becomes inactivated in each cell These stay inactive throughout the life cycles of the cells and its descendents Process is called methylation – The inactive x chromosome becomes a Barr body

14. Linked Genes They are located near each other on the same chromosome and tend to be inherited together – The further apart the genes are located, the less likely they are to be linked

15. Genetic Recombination Production of offspring with a new combination of genes inherited from parents Parental types = children that have the same phenotype as one of the parents Recombinants = children with phenotypes that are different from either parent

16. Quick Review 1.Name and describe the 3 recessive sex-linked diseases. List the phenotypes and the associated genotypes for one of the diseases. 2.What does methylation do and why is it necessary? 3.How is it possible to be genetically male but not look phenotypically male? Explain.

17. Chromosomal Abnormalities Nondisjunction – Homologous chromosomes do not separate properly – Sister chromatids don’t separate properly

18. Nondisjunction Results in gametes receiving too many or too few chromosomes – Aneuploidy = incorrect number of chromosomes – Trisomy (3 instead of 2) vs monosomy (1 instead of 2 – Polyploidy = having more than 2 sets of chromosomes Sets represented by n 3n, 4n – common in plants, not in animals

20. Alterations of Chromosome Structure Deletion Duplication Inversion Translocation

21. Deletion Part of the chromosome gets lost during division Result?

22. Duplication A piece of a chromosome that broke off (deletion) ends up attached to its sister chromatid Result? Duplication and deletion are the more common chromosomal abnormalities

23. Inversion A chromosome fragment breaks off and then reattaches, but backwards

24. Translocation A deleted chromosomal fragment joins a nonhomologous chromosome If it’s reciprocal, the pieces will switch places – Can be nonreciprocal, but this isn’t as common

25. Related Disorders Down Syndrome Klinefelter Syndrome Turner Syndrome These are not hereditary diseases. They do not get passed down from one generation to the other.

26. Down Syndrome Aneuploid condition – Trisomy 21 Characteristics: short stature, heart defects, mental retardation Chances of having a child with down syndrome increases with the mother’s age

29. Klinefelter Syndrome Aneuploidy of the sex chromosomes – XXY, occurs 1 in every 2000 births Have male sex organs, and even though the second X is inactivated, they might have larger than normal breasts and other more feminine characteristics Sterile

32. Turner Syndrome Monosomy X – Only monosomy that works in humans Occurs in 1/2000 births Genotype: XO Phenotype: female, but they are sterile – Their reproductive organs do not mature fully – Short stature – flat chest

33. Related Disorders Down Syndrome Klinefelter Syndrome Turner Syndrome These are not hereditary diseases. They do not get passed down from one generation to the other.

34. Unrelated Case Study: Tortoiseshell Cats Why is it that tortoiseshell cats are always female? Alleles for black and orange Mosaicism