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M endelian Disorders

M endelian Disorders. 张咸宁 zhangxianning@zju.edu.cn Tel: 13105819271; 88208367 Office: A705, Research Building 2012/09. Genotype : The combination of alleles that an individual possesses. Phenotype : The physical characteristics of a cell or

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M endelian Disorders

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  1. Mendelian Disorders 张咸宁 zhangxianning@zju.edu.cn Tel:13105819271; 88208367 Office: A705, Research Building 2012/09

  2. Genotype: The combination of alleles that an individual possesses. Phenotype: The physical characteristics of a cell or organism as defined by its genetic constitution.

  3. Major Patterns of Monogenic Inheritance • Patterns of autosomal dominant inheritance (AD)常染色体显性 • Patterns of autosomal recessive inheritance (AR)常染色体隐性 • Patterns of X-linked recessive inheritance (XD) X-连锁显性 • Patterns of X-linked dominant inheritance (XR) X-连锁隐性 • Patterns of Y-linked inheritanceY-连锁

  4. Symbols Commonly Used in Pedigree Charts

  5. Proband(先证者): III-5 Pedigree drawing software:Progeny, etc.

  6. AD

  7. AD

  8. AD

  9. AD

  10. AR

  11. AR

  12. AR

  13. AR

  14. XR

  15. XR

  16. XR

  17. XR

  18. XD

  19. XD

  20. Y-linked

  21. Special features of mitochondrial genetics mtDNA is maternally inherited. Paternal inheritance of mtDNA disease has been documented in only 1 instance. Schwartz M, Vissing J. NEJM, 2002;347:576–580

  22. Unusual Features of AD • Reduced penetrance • Variable expressivity • High frequency of new mutations

  23. CFTR Gene • 1st gene identified by positional cloning • Identified by the research group led by Dr. Lap-Chee Tsui (徐立之) at Toronto, Canada - (1989)  Identification of the cystic fibrosis gene: chromosome walking and jumping.  Science 245: 1059-1065. - (1989)  Identification of the cystic fibrosis gene: cloning and characterization of complementary DNA.  Science 245: 1066-1073. - (1989)  Identification of the cystic fibrosis gene: genetic analysis.  Science 245: 1073-1080.

  24. DMD (OMIM 310200):Xp21.2, 79 Exons, 2.4 mb

  25. DMD: Gower’s maneuver

  26. Factors affecting pedigree patterns • Onset age • Pleiotropy: multiple effects of a single gene (one gene, more than one effect ) • Genetic heterogeneity • Expressivity and penetrance • Coefficient of relationship and consanguineous marriage • Sex-limited phenotypes and sex-influenced phenotypes • genomic imprinting • Anticipation • X inactivation, …

  27. Pleiotropy(多效性) • multiple effects of a single gene (one gene, more than one effect ) • Eg: Marfan syndrome (FBN1gene)

  28. Genetic Heterogeneity(遗传异质性) The phenomenon that a disorder can be caused by different allelic or non-allelic mutations. • Locus heterogeneity • Allelic heterogeneity • Phenotypic (Clinical) heterogeneity

  29. Genetic Heterogeneity • Allelic heterogeneity:In a population, there may be a number of different mutant alleles at a single locus. In an individual, the same or similar phenotypes may be caused by different mutant alleles rather than by identical alleles at the locus. • Eg: nearly 1400 different mutations have been found worldwide in the CFTR among patients with cystic fibrosis (CF).

  30. Genetic Heterogeneity • Locus heterogeneity:The production of identical phenotypes by mutations at two or more different loci. • Eg: Osteogenesis Imperfecta (OI) or Brittle bone disease: Cs 7 & 17.

  31. Genetic Heterogeneity • Phenotypic (Clinical) heterogeneity: The term describing the occurrence of clinically different phenotypes from mutations in the same gene. • Eg: RET gene mutation caused Hirschsprung disease or multiple endocrine neoplasia type 2A and 2Bor both.

  32. Genomic imprinting(基因组印迹) • The phenomenon of a gene or region of a chromosome showing different expression depending on the parent of origin.

  33. Anticipation(遗传早现) • The tendency for some AD diseases to manifest at an earlier age and/or to increase in severity with each succeeding generation.

  34. Trinucleotide CAG repeat sizes in Huntington disease • Normal ≤26 • Mutable 27-35 • Reduced penetrance 36-39 • Fully penetrance ≥40

  35. 49,XXXXY

  36. X inactivation (X染色体失活。lyonization) • Inactivation of genes on one X chromosome in somatic cells of female mammals, occurring early in embryonic life, at about the time of implantation.

  37. Mechanisms of Epigenetic Inheritance • Epigenetic:The term that refers to any factor • that can affect gene function without change in • the genotype. • DNA methylation • Genomic imprinting (parent-of-origin silencing) • Histone Modifications • Regulatory non-coding RNAs

  38. An adult organism has an estimated 1014 cells. Cells =2 organisms:nucleus-cytosol + mt. Mitochondria are bacterial symbionts, ~ 2-3 X 109 YRA. Mitochondrial genome ~ 1500 genes (mtDNA + nDNA). Each cell has 100s of mitochondria and 1000s mtDNA. Mutations in mtDNA can be inherited maternally or acquired as somatic mutations.

  39. Mitochondrial inheritance due to a mutant gene carried on the mitochondrial genome  transmitted only through mothers because sperm contain very few mitochondria (maternal inheritance母系遗传)  inheritance and expression variable because of heteroplasmy (differing proportions of normal and mutant DNA in oocytes and tissues)  Examples: Leber hereditary optic atrophy, several myopathies

  40. Homoplasmy & Heteroplasmy • Homoplasmy(纯质性): The presence of only one type of mtDNA in the mitochondria of a single individual. • Heteroplasmy(杂质性) : The presence of more than one type of mtDNA in the mitochondria of a single individual.

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