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Genetic Disorders

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Abnormal methylation -resulting in transcriptional suppression of FMR-1 ... Methylation of DNA is known to affect gene expression. Histone H4 deacetylation ... – PowerPoint PPT presentation

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Title: Genetic Disorders


1
Genetic Disorders
2
  • Single-Gene Disorders with Nonclassic Inheritance
  • do not follow classic Mendelian principles
  • Four categories
  • Triplet-repeat mutations
  • gonadal mosaicism
  • genomic imprinting
  • mutations in mitochondrial genes

3
  • Single-Gene Disorders with Nonclassic Inheritance
  • 1. Triplet-repeat mutations
  • Mutation is characterized by a long repeating
    sequence of three nucleotides
  • FRAGILE-X SYNDROME
  • Fragile X discontinuity of staining or as a
    constriction in the long arm of the X chromosome
    (cultured in a folate-deficient medium)
  • affected sequences share the nucleotides guanine
    (G) and cytosine (C)
  • 2nd most common genetic cause of mental
    retardation (1st - Down syndrome)
  • Affected males - mentally retarded (IQ-20 to 60)
  • Physical phenotype
  • Long face with a large mandible
  • Large everted ears
  • Large testicles (Macro-orchidism- 90 of
    postpubertal males )
  • Hyper extensible joints
  • High arched palate, and mitral valve prolapse

4
  • Single-Gene Disorders with Nonclassic Inheritance
  • Fragile-X Syndrome
  • Carrier males
  • 20 of males-carry a fragile X mutation are
    clinically and cytogenetically normal
  • Have affected grandchildren
  • Transmitting males.
  • Affected females- 50 of carrier females are
    affected (i.e., mentally retarded)
  • Risk of phenotypic effects
  • Sherman paradox
  • brothers of transmitting males - 9 risk of
    having mental retardation
  • Grandsons of transmitting males - 40 risk
  • Anticipation- clinical features worsen with each
    successive generation
  • Mutation in Xq27.3 (FMR-1 gene)
  • Multiple tandem repeats of the nucleotide
    sequence CGG in its 5' untranslated region
  • During the process of oogenesis, ( not
    spermatogenesis), premutations can be converted
    to mutations by triplet-repeat amplification.
  • Abnormal methylation -resulting in
    transcriptional suppression of FMR-1

5
Chromosome is "broken or fragile site
Broken or Fragile site
6
FRAGILE-X SYNDROME
7
  • Single-Gene Disorders with Nonclassic Inheritance
  • Fragile-X Syndrome
  • loss of function of the familial mental
    retardation protein (FMRP).
  • most abundant in the brain and testis (most
    affected in this disease)
  • absence of such F MRP-mediated regulation ?
    interferes with synaptic transmission ? causes
    mental retardation
  • Diagnosis
  • PCR-based diagnosis - method of choice for
    diagnosis
  • Southern blot analysis is for
  • genetic counseling
  • prenatal postnatal distinction between
    premutations and mutations
  • Other Diseases Nucleotide Repeats
  • Huntington disease they occur during
    spermatogenesis
  • fragile-X syndrome, expansions occur during
    oogenesis

8
Loss of function of the familial mental
retardation protein (FMRP)
9
Table 5-9. Summary of Trinucleotide Repeat
Disorders
10
Table 5-9. Summary of Trinucleotides Repeat
Disorders
11
Table 5-9. Summary of Trinucleotide Repeat
Disorders
12
  • 2. Germ line or gonadal mosaicism
  • Some patients do not have affected parents
  • Disorder results from a new mutation in the egg
    or the sperm
  • Their siblings are neither affected nor at
    increased risk
  • Violates the laws of mendelian inheritance
  • Mutation that occurs postzygotically during early
    (embryonic) development
  • Gonadal mosaicism may be responsible for such
    unusual pedigrees

13
  • 3. Genomic imprinting
  • Homologous maternal and paternal chromosomes
  • Epigenetic process Imprinting
  • Imprinting (silencing)
  • Maternal Paternal
  • Imprinting (silencing)
  • occurs in the ovum or the sperm, before
    fertilization stably transmitted to all somatic
    cells through mitosis
  • Two uncommon genetic disorders
  • Prader -Willi syndrome
  • Angelman syndrome.

14
  • 3. Genomic imprinting
  • Prader -Willi Syndrome
  • Characterized by
  • Mental retardation, short stature, hypotonia,
    obesity, small hands and feet, and hypogonadism
  • Molecular basis
  • Most of cases (65 to 70) - del(15)
  • The paternally derived chromosome 15 involved in
    all cases
  • Biochemical basis
  • Methylation of DNA is known to affect gene
    expression
  • Histone H4 deacetylation methylation

15
  • 3. Genomic imprinting
  • Angelman Syndrome
  • Characterized by
  • also mentally retarded
  • ataxic gait, seizures, and inappropriate laughter
    ("happy puppets.)
  • Molecular basis
  • Deletion of this maternal gene on chromosome 15
  • uniparental disomy of paternal chromosome 15.
  • Biochemical basis
  • affected gene is a ubiquitin protein- ligase ( it
    has role in the ubiquitin - proteasome
    proteolytic pathway)
  • 10 of cases -due to a point mutation in the
    maternal allele
  • Parent-of-origin effects
  • Huntington disease and Myotonic dystrophy
  • Tumor genesis

16
Mutations in mitochondrial genesleber hereditary
optic neuropathy
17
  • 4. Mitochondrial diseases
  • unique Feature - maternal inheritance
  • Mothers transmit mtDNA ?to both male and female
    offsprings
  • Daughters but not sons transmit the DNA further
    to their progeny
  • Characterized by
  • Human mtDNA contains 37 genes
  • 24 are needed for mtDNA translation
  • 13 encode subunits of the respiratory chain
    enzymes (oxidative phosphorylation)
  • Organs most dependent on oxidative
    phosphorylation
  • CNS, skeletal muscle, cardiac muscle, liver, and
    kidneys
  • Tissues-harbor both wild-type and mutant mtDNA-
    Heteroplasmy
  • Minimum number of mutant mtDNA must be present to
    cause oxidative dysfunction - Threshold effect
  • Leber hereditary optic neuropathy -prototype
  • Neurodegenerative disease
  • Progressive bilateral loss of central vision
  • First noted between ages 15 and 35,
  • Cardiac conduction defects
  • Minor neurologic manifestations
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