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Pedigree Analysis CHAPTER 11 P. 308.

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1 Pedigree Analysis CHAPTER 11 P. 308

2 Pedigree Analysis In humans, pedigree analysis is an important tool for studying inherited diseases Pedigree analysis uses family trees and information about affected individuals to: figure out the genetic basis of a disease or trait from its inheritance pattern predict the risk of disease in future offspring in a family (genetic counseling)

3 Pedigree Analysis I II Mating Normal Normal Female Male 1st born
Affected Siblings

4 How to read pedigrees Basic patterns of inheritance autosomal, recessive autosomal, dominant X-linked, recessive X-linked, dominant (very rare)

5 Autosomal Recessive Trait is rare in pedigree
Trait often skips generations (hidden in heterozygous carriers) Trait affects males and females equally For each of these, over-dominance (heterozygote superiority) has been suggested as a factor in maintaining the disease alleles at high frequency in some populations

6 Most common Autosomal Recessive disorders
Cystic fibrosis Sickle cell anemia Phenylketonuria (PKU) Tay-Sachs disease

7 Autosomal Recessive

8 Autosomal Dominant Trait is common in the pedigree Trait is found in every generation Affected individuals transmit the trait to approximately 1/2 of their children (regardless of sex)

9 Autosomal Dominant

10 (a sketelal disorder causing dwarfism)
ex. achondroplasia (a sketelal disorder causing dwarfism)

11 X-Linked Recessive Trait is rare in pedigree Trait skips generations Affected fathers DO NOT pass to their sons, Males are more often affected than females

12 X-Linked Recessive

13

14 X-Linked Dominant Trait is common in pedigree Affected fathers pass to ALL of their daughters Males and females are equally likely to be affected

15 X-linked dominant diseases are extremely unusual Often, they are lethal (before birth) in males and only seen in females ex. incontinentia pigmenti (skin lesions) ex. X-linked rickets (bone lesions)

16 X-Linked Dominant

17 Remember: dominant traits may be rare in population recessive traits may be common in population alleles may come into the pedigree from 2 sources mutation happens often traits are more complex affected by environment & other genes Scientists study twins to view/separate environmental contributions vs. environmental factors. There is a large difference between fraternal twins and identical twins owing to genetic influence EPIGENETICS OF TWINS

18 Below are some practice examples! 

19 *both autosomal and x-linked
If two affected parents have an unaffected kid, recessiveness* can be ruled out *both autosomal and x-linked

20 Genetic Counseling A woman’s brother died from Tay Sach’s Disease (autosomal recessive, lethal), but she is unaffected. What are the chances that she is a carrier of the disease? 2/3 (67%) B. 1/2 (50%) C. 1/4 (25%) D. 1/6 (17%) E. 1/8 (12.5%)

21 Hint A woman’s brother died from Tay Sach’s Disease (autosomal recessive, lethal), but she is unaffected. What are the chances that she is a carrier of the disease? 2/3 (67%) B. 1/2 (50%) C. 1/4 (25%) D. 1/6 (17%) E. 1/8 (12.5%)

22 The answer is… D d A B DD Dd D d Dd dd C D
 2/3 (67%) B. 1/2 (50%) C. 1/4 (25%) D. 1/6 (17%) E. 1/8 (12.5%)

23 Problem 2 ASSUMING YOUR GRANDFATHER IS A CARRIER (HETEROZYGOTE) FOR A RARE RECESSIVE, DISEASE CAUSING ALLELE OF A GIVEN GENE, WHAT’S THE CHANCE THAT YOU ARE ALSO A CARRIER OF THIS ALLELE? ©2001 Lee Bardwell

24 IF D E F G THEN ? H you 2/3 B. 1/2 C. 1/4 D. 1/6 E.1/8

25 = Chance that you got a given allele from Grandpa D
1/2 (50% chance) mom got the allele F G 1/2 (50% chance) she gave it to you if she had it H 1/2 x 1/2 = 1/4 = Chance that you got a given allele from Grandpa D

26 Problem 3 YOUR GRANDFATHER’S SISTER HAD CYSTIC FIBROSIS (RARE, AUTOSOMAL RECESSIVE). THAT’S THE ONLY CASE IN YOUR FAMILY. (A) WHAT’S THE CHANCE THAT YOU ARE A CARRIER OF CF? 2/3 B. 1/2 C. 1/4 D. 1/6 E.1/8

27 Your grandfather’s sister had CF but he, his parents, and his descendants are unaffected, as are those who married into the family A B 2/3 1/2 1/4 1/6 1/8 C D E F G H you

28 D d A B DD Dd D 2/3 d Dd dd C D E F G H you

29 IF D E F G THEN ? H you

30 ANSWERS A. 1/4 = Chance that you got any particular allele from from grandpa B. 1/6 = correct answer = 1/4 (see A) x 2/3 (chances that grandpa was a carrier)


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