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General Genetics

Ayesha M. Khan Spring 2013. General Genetics. Inheritance of Z-linked characteristics is the same as that of X-linked characteristics, except that the pattern of inheritance in males and females is reversed. Z-W mechanism Males: homogametic sex (ZZ ); may be homozygous or heterozygous.

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General Genetics

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  1. Ayesha M. Khan Spring 2013 General Genetics

  2. Inheritance of Z-linked characteristics is the same as that of X-linked characteristics, except that the pattern of inheritance in males and females is reversed. Z-W mechanism Males: homogametic sex (ZZ); may be homozygous or heterozygous. Females: heterogametic sex (ZW) Z-Linked Characteristics

  3. Cameo phenotype in Indian blue peafowl (Pavocristatus). • The wild-type plumage is a glossy, metallic blue. • The female peafowl is ZW and the male is ZZ. • Cameo plumage, which produces brown feathers, results from a Z-linked allele (Zca) that is recessive to the wild-type blue allele (ZCa+). Z-Linked Characteristics (contd)

  4. Y-linked traits exhibit a distinct pattern of inheritance and are present only in males, because only males possess a Y chromosome. • All male offspring of a male with a Y-linked trait will display the trait because every male inherits the Y chromosome from his father. • Approximately three dozen Y-linked traits have been discovered. Y-Linked Characteristics

  5. Hairy ears; variable expressivity and incomplete penetrance • Could also be autosomaldominant characteristic expressed only in males • Mutations in DNA sequences on Y-chromosome: Like Y-linked traits, these variants—called genetic markers—are passed from father to son and can be used to study male ancestry. Y-Linked Characteristics (contd)

  6. Extensions and Modificationsof Basic Principles

  7. Mendel’s principles are not, by themselves, sufficient to explain the inheritance of all genetic characteristics. • Our modern understanding of genetics has been greatly enriched by the discovery of a number of modifications and extensions of Mendel’s basic principles.

  8. The idea that an individual possesses two different alleles for a characteristic, but the trait enclosed by only one of the alleles is observed in the phenotype. With dominance, the heterozygote possesses the same phenotype as one of the homozygotes. • The important thing to remember about dominance is that it affects the phenotype that genes produce, but not the way in which genes are inherited. Dominance

  9. The heterozygote is intermediate in phenotype between the two homozygotes. • As long as the heterozygote’s phenotype can be differentiated and falls within the range of the two homozygotes, dominance is incomplete. Incomplete dominance

  10. The phenotype of the heterozygote is not intermediate between the phenotypes of the homozygotes; rather, the heterozygote simultaneously expresses the phenotypes of both homozygotes. • Examples: • Cystic Fibrosis (CFTR gene) • MN blood types CODOMINANCE

  11. Huntington disease • The gene has been mapped to the tip of chromosome 4 • Appears with equal frequency in males and females • Rarely skips generations • When one parent has the disorder, approximately half of the children will be similarly affected • Earlier appearance of a trait as it is passed from generation to generation

  12. Allelic interaction • Does not alter the way in which the genes are inherited; it only influences the way in which they are expressed as a phenotype. • The classification of dominance depends on the level at which the phenotype is examined. Characteristics of dominance

  13. Characteristics of dominance (contd)

  14. Anticipation is the stronger or earlier expression of a genetic trait through succeeding generations. • Examples: Myotonic Dystrophy and Huntingtons disease  an unstable region of DNA that can increase or decrease in size as the gene is passed from generation to generation.  an increase in the size of the region through generations produces anticipation Anticipation

  15. A lethal allele is one that causes death at an early stage of development— often before birth—and so some genotypes may not appear among the progeny. • Can be recessive or dominant Lethal alleles

  16. More than two alleles are present within a group of individuals—the locus has multiple alleles. • Examples • Duck feather patterns • ABO blood type MULTIPLE ALLELES

  17. Genotype Phenotype MRMR restricted MRM restricted MRmd restricted MM mallard Mmd mallard mdmddusky • MR >M >md Duck feather patterns restricted mallard dusky

  18. Locus for the ABO blood group; codes for antigens on red blood cells. • The three common alleles for the ABO blood group locus are: IA, which codes for the A antigen; IB, which codes for the B antigen; and i, which codes for no antigen (O). • The IA and IB show co-dominance. IA > i, IB > i, IA = IB ABO blood group

  19. ABO blood types and possible blood transfusions

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