Genetics & Inheritance Tuesday 10 /22/13

1. Genetics & Inheritance Tuesday 10/22/13 • Beyond Mendel • Incomplete Dominance • Co-Dominance / Multiple Alleles • Environmental influence • Inheritance patterns • pedigree analysis • autosomal vs. X-linked traits • Chromosomal Basis of Inheritance • gene linkage • non-disjunction in meiosis last outline • Material in this outline is fair game for Exam two (a week from today) • Will start evolution on Thursday – will be on Exam three

2. Inheritance of Traits: • characteristics are passed down across generations • genetic counseling looks at the • homozygous dominant and heterozygous individuals • heterozygous is • one tool is use of pedigree analysis to determine (or try to determine) the inheritance pattern of the disorder

3. Pedigree Analysis: • Types of inheritance patterns: This chart shows an autosomal recessive pattern -

4. Patterns of Inheritance: • autosomal dominant • autosomal recessive

5. Patterns of Inheritance: • X-linked recessive • XAXA & XAXa • XAY - • XaXa • pattern of inheritance different for males & females • males • all sons • all affected daughters

6. Gene Linkage: • crossing over during meiosis exchanges alleles • when genes are • if the genes are on the same chromosome fig 24.2 • the closer together two genes are the more likely they will not be separated during crossing-over

7. Chromosomes not splitting during Meiosis: • Meiosis - process of making gametes • Errors in meiosis - - • nondisjunction -- • during Meiosis I - • during Meiosis II - • Note:

8. fig 24.7 non-disjunction in Meiosis II non-disjunction in Meiosis I • Results: gamete with an extra OR missing chromosome • if occurs inmeiosis I - • if occurs in meiosis II

9. Examples: • (1) Down’s Syndrome • trisomy 21 • 1 out of 700 children • syndrome - Most trisomies are NOT viable - exceptions are fig 24.8

10. Nondisjunction in Sex Chromosomes: • (2) Klinefelter syndrome - • nondisjunction • phenotypic results:

11. Nondisjunction in Sex Chromosomes: • (3) Turner’s syndrome - • nondisjunction in egg or sperm • 1 in 2500 female births • tend to be • treatment with

12. Testing for Chromosomal Anomalies fig 24B, pg488 • Amniocentesis: • risk – increase in spontaneous miscarriage • Chorionic villus sample:

13. fig 24.9 Chromosomal mutations: • typically a • lacks a • may vary William’s syndrome: deletion of part of ch. #7 poor academics & health issues, highly verbal/musical friendly fig 24.10 inv dup 15 syndrome: part of chromosome 15 duplicated and inverted poor muscle tone / autistic characteristics

14. NON-Disjunction Exercise: Starting with the cell below, draw out meiosis showing non-disjunction occurring during meiosis I. Be sure to show the duplication of the chromosomes, label the homologous chromosomes and the sister chromatids. Label the non-disjunction, indicating what goes wrong. Note: this cell shows the sex chromosomes PRIOR to duplication! AT THE END of your meiosis drawing indicate with an arrow(s) the abnormal gametes. Y X

15. In which type of nondisjuction (meiosis I or meiosis II) does a triplo-X (XXX) individual inherit two X chromosomes from her father?