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Inheritance of Gene Differences – non-Mendelian geneic interactions, part 2 II.Autosomes v. Sex chromosomes A. Morgan’s experiments B. Pattern of Sex linked.

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Presentation on theme: "Inheritance of Gene Differences – non-Mendelian geneic interactions, part 2 II.Autosomes v. Sex chromosomes A. Morgan’s experiments B. Pattern of Sex linked."— Presentation transcript:

1 Inheritance of Gene Differences – non-Mendelian geneic interactions, part 2 II.Autosomes v. Sex chromosomes A. Morgan’s experiments B. Pattern of Sex linked inheritance III.Human Genetics & Pedigrees

2 II. Sex chromosomes v. Autosomes Sex chromosomes: house some key genes responsible for determination of separate sexes A.Heterogametic, XY or ZW X & Y differ in size, but they do share a region of homology for proper pairing during cell division X & Y differ in size, but they do share a region of homology for proper pairing during cell division Genes located on the differential part of the X are called X linked genes Genes located on the differential part of the X are called X linked genes B.Homogametic, XX or ZZ X & Y differ in size, but they do share a region of homology for proper pairing during cell division Genes located on the differential part of the X are called X linked genes C.Autosomes = the remaining (non-sex) chromosomes

3 Some Drosophila have irregular white eye color. When a white eye female is crossed with a normal male, the F 1 generation consists of ½ normal, ½ white. The F 2 generation also consists of ½ red eye and ½ white eye. WHY? Thomas Hunt Morgan A. Morgan’s Drosophila experiments

4 Through several crosses, Morgan and his students determined that the genes for eye color were located on the X chromosome. X Y chromosome complements of male & female Drosophila

5 Sex linked genes: members of the homogametic sex (XX) have two alleles per gene, members of the heterogametic sex (XY) have only one allele Cross A P: Red eye female (X + X + ) x white eyed male (X w Y) P: Red eye female (X + X + ) x white eyed male (X w Y) F 1 : All red eyes F 1 : All red eyes F 2 : All females red eyes, ½ males white eyes F 2 : All females red eyes, ½ males white eyes

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7 Reciprocal cross:

8 Human karyotype – males are heterogametic, similar to Drosophila Therefore, fathers pass along the genes on their X chromosome to their daughters, and they pass the Y onto their sons!

9 B. Pattern of Sex linked inheritance Genes located on the sex chromosomes are not equally inherited by sons & daughters sperm eggs X Y X XX XY Female to male ratio is 1:1 Males are Hemizygous

10 Sex limited & sex influenced Autosomal genes responsible for the existence of contrasting phenotypes, but the expression of these genes is dependent upon the hormone constitution of the individual. Sex limited: expression is limited to one gender Sex limited: expression is limited to one gender Sex influenced: phenotype expressed by a heterozygote is influenced by gender Sex influenced: phenotype expressed by a heterozygote is influenced by gender Allele appears dominant in one gender and recessive in the other men women BB bald bald Bb bald unaffected bb unaffected unaffected

11 II. Human Genetics & Pedigrees Geneticists are primarily interested in humans to establish the pattern of transmission of inherited traits – specifically those associated with disease Mendelian ratios do not apply in individual human families because of the small size Mendelian ratios do not apply in individual human families because of the small size Controlled matings cannot be made as is possible in experimental genetics Controlled matings cannot be made as is possible in experimental genetics Pedigrees useful in terms of understanding the transmission pattern of specific traits Pedigrees useful in terms of understanding the transmission pattern of specific traits

12 Determining how diseases are inherited in Humans – Pedigrees To determine how traits are inherited, researchers in collect information on affected and non-affected persons in a family, preparing a pedigree chart, and looking for exceptions to standard transmission patterns Pedigree = A “family tree” drawn with standard genetic symbols, showing inheritance patterns for specific phenotype characters. Used to test various hypothesis and reveal allelic determination Used to test various hypothesis and reveal allelic determination Determine if it is a rare inherited disorder Determine if it is a rare inherited disorder

13 Pedigree: Contains info about the individuals in a family, sex, phenotype, relatedness, who is alive, twins, inbreeding, etc. Generations in a pedigree diagram are numbered, by convention, using Roman numerals, starting with the parental generation, at the top of the diagram as generation I. For convenience, the members of each generation are numbered across the line, from left to right, using normal numerals

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16 Autosomal dominant both males and females are be affected Affected individuals appear in each generation aa A/a aa Aa Aa aa aa aa Aa aa aa aa Aa aa aa

17 Autosomal recessive A/a A/A A/a A/A A/- a/a A/-

18 X-linked recessive more males than females none of the offspring of an affected male are affected but all his daughters must be heterozygous carriers, and half the sons born to these daughters are affected

19 1) Autosomal recessive disorders oculocutaneous albinism alkaptonuria Bartter's syndrome cystic fibrosis Tay-Sachs disease galactosaemia Gaucher's disease glycogen storage disease phenylketonuria Wilson's disease xeroderma pigmentosa Sickle-cell anemia

20 2) Autosomal dominant disorders Huntington’s disease Huntington’s disease Polydactyly & Brachydactyly Polydactyly & Brachydactyly Piebald spotting Piebald spotting ~290 disorders have been identified! ~290 disorders have been identified! Red-green color blindness Red-green color blindness Hemophilia Hemophilia Duchenne muscular dystrophy Duchenne muscular dystrophy ichythyosis ichythyosis fragile X-linked mental retardation fragile X-linked mental retardation agammaglobulinaemia agammaglobulinaemia Hypophosphatemia Xg blood group Rett's syndrome 4) X-linked dominant disorders 3) X-linked recessive disorders

21 Different types of inheritance patterns: a review Simple Mendelian – obey Mendel’s “laws”, follow strict dominant/recessive relationship (monohybrid F2 – 3:1) Incomplete Dominance – occurs when the heterozygote has an intermediate phenotype between either corresponding homozygote because it is haploinsufficient (F2 – 1:2:1) Codominance – occurs when the heterozygote expresses both alleles simultaneously and equally Lethal Alleles – an allele that has the potential for causing death Epistasis – occurs when the product of one gene interferes or masks the expression of another gene (F2 – 9:3:4, 12:3:1, 9:7) X linked – involves the inheritance of genes located on the X chromosome. In mammals & fruit flies, males are hemizygous Sex influenced – refers to the impact of sex on the phenotype of the individual, some alleles are dominant in one sex and recessive in the other Sex limited – refers to traits that occur only in one of the two sexes


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