1 / 42

Pedigree Analysis

Pedigree Analysis. Recognizing different patterns of inheritance within different types of pedigrees Textbook p. 611-617. Tee hee. What is a Pedigree?. Diagram or flowchart that uses symbols to show patterns of relationships & traits in a family over many generations

laurit
Download Presentation

Pedigree Analysis

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Pedigree Analysis • Recognizing different patterns of inheritance within different types of pedigrees • Textbook p. 611-617

  2. Tee hee

  3. What is a Pedigree? • Diagram or flowchart that uses symbols to show patterns of relationships & traits in a family over many generations • 4 patterns of inheritance to be analyzed: • Autosomalrecessive • Autosomaldominant • Sex-linked recessive • Sex-linkeddominant http://media.syracuse.com/news/photo/2010/06/ugliest-dog-dies-ny114jpg-f63d008d5e193838.jpg

  4. Symbols in Pedigree Charts

  5. Symbols in Pedigree Charts p. 612

  6. Examples http://commons.wikimedia.org/wiki/File:Pedigree-chart-example.png Dominant sex-linked Recessive autosomal Dominant autosomal Recessive sex-linked

  7. Allele Notation • Dominant autosomal trait: the affected allele = “A” and the unaffected allele =“a” • Recessive autosomal trait: the affected allele = “a” and the unaffected allele = “A” • Dominant sex-linked trait: the affected allele = “XA” and the unaffected allele = “Xa” • Recessive sex-linked trait: the affected allele = “Xa” and the unaffected allele = “XA”

  8. Pedigree Analysis Step 1: Determine whether the trait demonstrated by the pedigree is dominant or recessive Step 2:Determine whether the trait is sex-linked or autosomal. To do this, you must look for evidence of certain patterns of inheritance.

  9. The Pedigree Decision Tree

  10. Step 1: Dominant or recessive? • Use the decision tree and look for evidence!

  11. Why do heterozygotes indicate a recessive trait? Heterozygote = carries the gene but does not display the trait If recessive trait, an individual with Aa will appear as this If dominant trait, an individual with Aa will appear as this: OR

  12. Dominant or recessive? Recessive! Unaffected parents produce affected offspring

  13. Dominant or recessive? Dominant! All affected individuals have an affected parent

  14. Dominant or recessive? Recessive! Heterozygotes AND unaffected parents produce affected offspring

  15. Remember the steps: Step 1: Determine whether the trait demonstrated by the pedigree is dominant or recessive • Once you do this, you are ready to go to step 2! Step 2:Determine whether the trait is sex-linked or autosomal. - The evidence you look for depends on your answer for step 1

  16. The Pedigree Decision Tree

  17. For recessive pedigreesStep 2: Autosomal or sex-linked? • Use the decision tree and look for evidence!

  18. For recessive pedigreesStep 2: Autosomal or sex-linked? RECESSIVE AUTOSOMAL if: • Male carriers/heterozygotes • Affected female has unaffected parents RECESSIVE SEX-LINKED if: • If carrier mother x unaffected father has affected son • No affected females, suspect sex-linked

  19. Example

  20. 1) Recessive or Dominant?2) Autosomal or Sex-Linked? Recessive! Unaffected parents produce affected offspring Autosomal! Unaffected parents produce affected daughter

  21. Example

  22. 1) Recessive or Dominant?2) Autosomal or Sex-Linked? Recessive! Heterozygotes AND unaffected parents produce affected offspring Carrier mother x unaffected father producing affected sons

  23. For dominant pedigreesStep 2: Autosomal or sex-linked? • Use the decision tree and look for evidence!

  24. For dominant pedigreesStep 2: Autosomal or sex-linked? IF DOMINANT, the pedigree must be DOMINANT AUTOSOMAL if: • Affected father has unaffected daughter • Affected father has affected son with unaffected mother DOMINANT SEX-LINKED if: • Affected father has all affected daughters and no affected sons

  25. Dominant Autosomal Pedigrees • Affected father has unaffected daughter • Affected father has affected son with unaffected mother Because father MUST be a carrier  genotype = Aa Unaffected daughter MUST be aa Since the father gives the allele to the son, it must be autosomal

  26. Dominant Sex-Linked Pedigrees • Affected father has all affected daughters and no affected sons All affected daughters No affected sons

  27. Example

  28. 1) Recessive or Dominant?2) Autosomal or Sex-Linked? Autosomal! Affected father produces unaffected daughters Dominant! All affected individuals have an affected parent

  29. Example http://commons.wikimedia.org/wiki/File:Pedigree-chart-example.png

  30. 1) Recessive or Dominant?2) Autosomal or Sex-Linked? Dominant! All affected individuals have an affected parent Sex-linked! Affected fathers produce all affected daughters AND no affected sons http://commons.wikimedia.org/wiki/File:Pedigree-chart-example.png

  31. The Pedigree Decision Tree

  32. Genotyping

  33. Genotyping

  34. Pedigree Practice • Recessive or dominant trait? How can you tell? • Autosomal or sex-linked trait? How can you tell? • Identify the genotypes.

  35. Pedigree Practice • Recessive or dominant trait? How can you tell? • Autosomal or sex-linked trait? How can you tell? • Identify the genotypes.

  36. Pedigree Practice

  37. Pedigree Practice

  38. Pedigree Practice

  39. Q: did you notice that the last pedigree was the same example from earlier in this lecture?!?

  40. Pedigree Practice

  41. Chapter 17

  42. What you need to know about pedigrees: • How to be able to recognize the patterns of inheritance associated with the four types of pedigrees: dominant autosomal, dominant sex-linked, recessive autosomal, recessive sex-linked

More Related