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Midterm Friday - or - Monday? Covers Chapters 1,2 and 3.6 If yed, it will mean moving Exam 2 to May 6.

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Presentation on theme: "Midterm Friday - or - Monday? Covers Chapters 1,2 and 3.6 If yed, it will mean moving Exam 2 to May 6."— Presentation transcript:

1 Midterm Friday - or - Monday? Covers Chapters 1,2 and 3.6 If yed, it will mean moving Exam 2 to May 6.

2 Sex Chromosomes... ‘X’ and ‘Y’ chromosomes that determine the sex of an individual in many organisms, Females: XX Males: XY

3 Differential Region Differential Region Paring Region male XX: female aaA

4 male a hemizygous: condition where gene is present in only one dose.

5 X Linkage …the pattern of inheritance resulting from genes located on the X chromosome.

6 X-Linked Genes …refers specifically to genes on the X- chromosome, with no homologs on the Y chromosome.

7 Blue Female Pink Male x P Gametes or

8 Gametes or F1 Blue FemaleBlue Male

9 F1 Blue FemaleBlue Male x Gametes or

10 Gametes or F2 Blue FemaleBlue MaleBlue FemalePink Male

11 F2 Blue FemaleBlue MaleBlue FemalePink Male 3 : 1

12 Pink Female Blue Male x P Gametes or

13 F1 Blue FemalePink Male Gametes or

14 F2 Pink FemalePink MaleBlue FemaleBlue Male Gametes or

15 F2 Pink FemalePink MaleBlue FemaleBlue Male 11 11

16 Sex Linkage to Ponder Female is homozygous recessive X-linked gene, –what percentage of male offspring will express? –what percentage of female offspring will express if, mate is hemizygous for the recessive allele? mate is hemizygous for the dominant allele? Repeat at home with female heterozygous X- linked gene!

17 Sex-Linked vs. Autosomal autosomal chromosome: non-sex linked chromosome, autosomal gene: a gene on an autosomal chromosome, autosomes segregate identically in reciprocal crosses.

18 X-Linked Recessive Traits Characteristics Many more males than females show the phenotype, –female must have both parents carrying the allele, –male only needs a mother with the allele, Few (or none) of the offspring of affected males show the disorder, –all of his daughters are carriers, half of the sons born to these daughters are carriers.

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20 X-Linked Dominant Affected males married to unaffected females pass the phenotype to their daughters, but not to their sons, Heterozygous females married to unaffected males pass the phenotype on to half their sons and daughters, Homozygous dominant females pass the phenotype on to all their sons and daughters,

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22 Autosomal Dominant Phenotypes appear in every generation, Affected males and females pass the phenotype to equal proportions of their sons and daughters.

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25 Recessive?---> Yes! Pedigree for Very Rare Trait Autosomal?X-Linked?---> Yes! 1/2 1/2 x 1/2 x ?1/2 = 1/8

26 Linkage Genes located on the same chromosome segregate together and are said to be linked.

27 A b 2n = 4 Independent Assortment a A A B B b a B a b

28 Meiosis Prophase I cont. Chiasmata and crossing over AaAa BBbb aA

29 Meiosis No Cross Over Parent Cell Daughter Cells Have Parental Chromosomes Aa Bb A B a b a b A B 2n = 1

30 Meiosis With Cross Over Parent Cell Daughter Cells Have Recombinant Chromosomes Aa Bb A B A b a b a B 2n = 1

31 Gamate Formation in F1 Dihybrids P: GGWW x ggww G g W w GWGwgWgw alleles gametes probability.25 F1 Genotype: GgWw

32 How do you test for assortment of alleles? GWGwgWgw.25 F1: GgWw

33 Test Cross phenotypes of the offspring indicate the genotype of the gametes produced by the parent in question.

34 Test Cross GgWw x ggww GW (.25) Gw (.25) gW (.25) gw (.25) gw (1) G gww (.25) GgWw (.25) ggWw (.25) ggww (.25)

35 Test Cross GgWw x ggww GW (.25) Gw (.25) gW (.25) gw (.25) gw (1) Ggww (.25) GgWw (.25) ggWw (.25) ggww (.25) P P parental types GgWw and gwgwP: GGWW and ggww R R recombinant types Ggww and ggWw

36 Recombination Frequency …or Linkage Ratio: the percentage of recombinant types, –if 50%, then the genes are not linked, –if less than 50%, then linkage is observed.

37 Linkage Genes located on the same chromosome do not recombine, –unless crossing over occurs, The recombination frequency gives an estimate of the distance between the genes.

38 Recombination Frequencies Genes that are adjacent have a recombination frequency near 0%, Genes that are very far apart on a chromosome have a linkage ratio of 50%, The relative distance between linked genes influences the amount of recombination observed.

39 Dihybrid Cross yellow/round green/wrinkled GGWW x ggww GW gw GgWw phenotype genotype gametes genotype P F1

40 Questions Don’t rely on the answers in the back of the book to solve your problems… –Don’t just solve them, but understand the principles needed to solve them. More practice questions are online. No answers are available, i.e. confirm your own answers

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