Genetics Biochemistry First Aid – Flashcards
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What is codominance?
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DEFINITION both alleles contribute to the phenotype of the heterozygote EXAMPLE blood groups A, B, and AB
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What is variable expressivity?
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DEFINITION phenotype varies among individuals with same genotype EXAMPLE two patients with NF1 may have varying disease severity
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What is incomplete penetrance?
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DEFINITION not all individuals with a mutant genotype show the mutant phenotype EXAMPLE BRCA1 gene mutations do not always result in breast or ovarian cancer
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What is pleiotropy?
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DEFINITION one gene contributes to multiple phenotypic effects EXAMPLE PKU causes mental retardation and hair/skin changes
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What is imprinting?
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DEFINITION difference in gene expression depend on whether the mutation is of maternal or paternal origin EXAMPLE Prader-Willi and Angelman
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What is anticipation?
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DEFINITION increased severity or earlier onset of disease in succeeding generations EXAMPLE Huntington
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What is meant by loss of heterozygosity and of what genes is it not true?
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DEFINITION if a patient inherits or develops a mutation in a tumor suppressor gene, the complementary allele must be deleted/mutated before cancer develops NOT TRUE IN oncogenes EXAMPLE retinoblastoma and the "two-hit" hypothesis
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What is a dominant negative mutation?
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DEFINITION a single mutation exerts a dominant effect; a heterozygote produces a nonfunctional altered protein that also prevents the normal gene from functioning EXAMPLE mutation of a transcription factor in its allosteric site can still bind DNA, preventing the wild-type from binding
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What is linkage disequilibrium?
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tendency for certain alleles at two linked loci to occur together more often than expected by change; measured in a population, not in a family; often varies in different populations
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What is mosaicism?
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DEFINITION cells in the body differ in genetic makeup due to postfertilization loss or change of genetic information during mitosis; can be germ-line (gonadal mosaicism), which may produce disease that is not carried by parents' somatic cells EXAMPLE mutation in the embryonic precursor of the bone marrow stem cells --> hematologic mosaic individual; fusion of two zygotes --> chimera
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What is locus heterogeneity?
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DEFINITION mutations at different loci produce the same phenotype EXAMPLE Marfan's, MEN2b, and homocystinuria all cause marfanoid habitus; albinism
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What is heteroplasmy?
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presence of both normal and mutated mtDNA --> variable expression in mitochondrial inherited disease
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What is uniparental disomy? What are its types?
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DEFINITION offspring receives two copies of a chromosome from one parent and no copies from the other TYPES heterodisomy (meiosis I error), isodisomy (meiosis II error or postzygotic chromosomal duplication of one pair and loss of the other pair) EXAMPLES child manifests recessive disorder when only one parent is a carrier; note that most occurrences of uniparental disomy result in a normal phenotype as the process is euploid, not aneuploid
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What are the assumptions of Hardy-Weinberg population genetics?
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1. no mutation at the locus 2. no selection for any of the genotypes at the locus 3. completely random mating 4. no net migration
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What calculations are associated with Hardy-Weinberg population genetics?
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population in equilibrium displays p2 + 2pq + q2 = 1 and p + q = 1, where p2 = frequency of homozygosity for allele p q2 = frequency of homozygosity for allele q 2pq = frequency of heterozygosity (carrier frequency, if autosomal recessive) NOTE in an X-linked recessive disease, the frequency in males is equal to q and the frequency in females is equal to q2
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What is imprinting?
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DEFINITION at some loci, only one allele is active, and the other is inactive by methylation; deletion of active allele --> disease EXAMPLE Prader-Willi and Angelman (inactivation or deletion of genes on chromosome 15); can also occur as a result of uniparental disomy
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What is Prader-Willi syndrome?
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CAUSE paternal copy of allele on chromosome 15 not expressed PRESENTATION mental retardation, hyperphagia, obesity, hypogonadism, hypotonia --Prader-willi is Paternal.--
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What is Angelman's syndrome?
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CAUSE maternal copy of allele on chromosome 15 is not expressed PRESENTATION mental retardation, seizures, ataxia, inappropriate laughter --angelMan's is Maternal.--
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Which mode of inheritance is often pleiotropic?
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autosomal dominant
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Which mode of inheritance normally confers diseases of enzyme deficiencies?
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autosomal recessive
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Which mode of inheritance does not show male-to-male transmission?
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X-linked recessive
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Hypophosphatemic rickets is inherited in what pattern?
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X-linked dominant
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For a female to be affected by an X-linked recessive disease, what must their allele distribution be?
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homozygous
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If all female offspring of an affected father are affected by a disease, what is its inheritance pattern?
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X-linked dominant
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If all offspring of an affected mother are affected by a disease, what is its inheritance pattern?
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mitochondrial
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Which mode of inheritance shows variable expression due to heteroplasmy?
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mitochondrial
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Diseases of which inheritance pattern present with myopathy, CNS disease, and "ragged red fibers?"
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mitochondrial
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In which mode of inheritance do sons of heterozygous mothers have a 50% chance of being affected?
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X-linked recessive
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Name the mode of inheritance. Achondroplasia
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autosomal dominant
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Name the mode of inheritance. ARPKD
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autosomal recessive
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Name the mode of inheritance. Bruton's agammaglobulinemia
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X-linked recessive
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Name the mode of inheritance. Tuberous sclerosis
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autosomal dominant
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Name the mode of inheritance. von Hippel-Lindau disease
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autosomal dominant
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Name the mode of inheritance. Duchenne's muscular dystrophy
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X-linked recessive
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Name the mode of inheritance. Wiskott-Aldrich syndrome
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X-linked recessive
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Name the mode of inheritance. cystic fibrosis
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autosomal recessive
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Name the mode of inheritance. MEN (multiple endocrine neoplasias)
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autosomal dominant
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Name the mode of inheritance. hereditary hemorrhagic telangiectasia (Osler-Weber-Rendu syndrome)
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autosomal dominant
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Name the mode of inheritance. albinism
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autosomal recessive
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Name the mode of inheritance. Fabry's disease
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X-linked recessive
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Name the mode of inheritance. Becker's muscular dystrophy
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X-linked recessive
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Name the mode of inheritance. phenylketonuria
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autosomal recessive
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Name the mode of inheritance. thalassemias
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autosomal recessive
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Name the mode of inheritance. hereditary spherocytosis
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autosomal dominant
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Name the mode of inheritance. Huntington's disease
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autosomal dominant, expresses anticipation
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Name the mode of inheritance. Marfan's syndrome
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autosomal dominant
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Name the mode of inheritance. glycogen storage diseases
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autosomal recessive
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Name the mode of inheritance. FAP (familial adenomatous polyposis)
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autosomal dominant
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Name the mode of inheritance. ADPKD
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autosomal dominant
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Name the mode of inheritance. familial hypercholesterolemia (hyperlipidemia type IIA)
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autosomal dominant
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Name the mode of inheritance. hemochromatosis
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autosomal recessive
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Name the mode of inheritance. neurofibromatosis, types I and II
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autosomal dominant
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Name the mode of inheritance. Lesch-Nyhan
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X-linked recessive
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Name the mode of inheritance. ocular albinism
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X-linked recessive
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Name the mode of inheritance. hemophilia A and B
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X-linked recessive
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Name the mode of inheritance. mucopolysaccharidoses (except Hunter's)
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autosomal recessive
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Name the mode of inheritance. G6PD deficiency
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X-linked recessive
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Name the mode of inheritance. sphingolipidoses (except Fabry's)
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autosomal recessive
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Name the mode of inheritance. ornithine transcarbamoylase deficiency
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X-linked recessive
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Name the mode of inheritance. sickle cell anemia
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autosomal recessive
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Name the mode of inheritance. Hunter's syndrome
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X-linked recessive
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Name the X-linked recessive disorders.
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Bruton's agammaglobulinemia Wiskott-Aldrich syndrome Fabry's disease G6PD deficiency Ocular albinism Lesch-Nyhan syndrome Duchenne's (and Becker's) muscular dystrophy Hunter's Syndrome Hemophilia A and B Ornithine transcarbamoylase deficiency --Be Wise, Fool's GOLD Heeds Silly HOpe.--
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What is the pathogenesis of achondroplasia? With what is it associated?
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PATHOGENESIS cell-signaling defect of FGF receptor 3 --> dwarfism, short limbs, larger head with normal trunk size ASSOCIATIONS advanced paternal age
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What is the pathogenesis of autosomal dominant polycystic kidney disease (ADPKD)? What are its possible associated complications?
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PATHOGENESIS 85% of cases due to mutation in PKD1 on chromosome 16 --> formation of multiple large cysts --> bilateral, massive enlargement of kidneys --> flank pain, hematuria, HTN, progressive renal failure COMPLICATIONS polycystic liver disease; berry aneurysms --> subarachnoid hemorrhage; mitral valve prolapse
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What disease is conferred by a mutation of PKD1 on chromosome 16?
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ADPKD
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What is the pathogenesis of FAP?
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mutation in APC gene on chromosome 5 --> hundreds to thousands of adenomatous polys on colon after puberty --> colon cancer
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APC mutations are associated with what disease?
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FAP
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What is the pathogenesis of familial hypercholesterolemia (hyperlipidemia type IIA)?
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absent or defective LDL receptor --> elevated LDL (heterozygotes, cholesterol ~300; homozygotes, cholesterol >700) --> severe atherosclerotic disease early in life, tendon xanthomas, MI
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In familial hypercholesterlemia (hyperlipidemia type IIA), where do tendon xanthomas classically appear?
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Achilles
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What is the pathogenesis of hereditary hemorrhagic telangiectasia (Osler-Weber-Rendu syndrome)?
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autosomal dominant inherited disorder of blood vessels --> telangiectasia (skin and mucous membranes), recurrent epistaxis, arteriovenous malformations (AVMs), GI bleeding, hematuria
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What is the pathogenesis and treatment of hereditary spherocytosis?
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PATHOGENESIS defect in spectrin or ankyrin --> spheroid erythrocytes --> hemolytic anemia, increased MCHC TREATMENT splenectomy
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What is the pathogenesis of Huntington's disease?
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trinucleotide repeat disorder of (CAG)n --> decreased levels of GABA and ACh in brain --> depression, progressive dementia, choreiform movements, caudate atrophy
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On which chromosome is the gene responsible for Huntington's located?
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chromosome 4 --Hunting 4 food.--
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What is the pathogenesis of Marfan's syndrome?
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mutation in fibrillin-1 --> connective tissue disorder affecting skeleton, heart, and eyes --> tall with long extremities, pectus excavatum, hypermobile joints, arachnodactyly (long and tapering fingers and toes); floppy mitral valve; subluxation of lenses cystic medial necrosis of aorta --> aortic incompetence, dissecting aortic aneurysms
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What is the presentation of MEN (multiple endocrine neoplasias)?
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familial tumors of endocrine glands (pancreas, parathyroid, pituitary, thyroid, adrenal medulla) NOTE types include 1, 2A and 2B; both 2A and 2B are associated with the ret gene
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Which disease is associated with the ret gene?
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MEN 2A and 2B
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Which disease is associated with chromosome 17?
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neurofibromatosis type 1 (the gene codes for neurofibromatin)
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Which disease is associated with the NF2 gene on chromosome 22?
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neurofibromatosis type 2 (this gene codes for merlin)
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What is the presentation of neurofibromatosis type I (von Recklinghausen's disease)?
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cafe-au-lait spots, neural tumors, Lisch nodules (pigmented iris hamartomas) skeletal disorders (scoliosis) and optic pathway gliomas
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What is the presentation of neurofibromatosis type II?
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bilateral acoustic schwannomas juvenile cataracts
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What are the findings in tuberous sclerosis?
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facial lesions (adenoma sebaceum) hypopigmented "ash leaf spots" on skin cortical and retinal hamartomas seizures mental retardation renal cysts renal angiomyolipomas cardiab rhabdomyomas increased incidence of astrocytomas
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Which of the following does tuberous sclerosis show? incomplete penetrance anticipation variable presentation heteroplasmy codominance dominant negative mutation
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incomplete penetrance with variable presentation
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What is the pathogenesis of von Hippel-Lindau disease?
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deletion of VHL gene (tumor suppressor) on chromosome 3 (3p) --> constitutive expression of HIF (transcription factor), activation of angiogenic growth factors --> hemangioblastomas of retina/cerebellum/medulla; multiple bilateral renal cell carcinomas and other tumors (including pheochromocytomas and ependymomas)
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Which autosomal dominant disorder confers an increased risk for renal cell carinoma?
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von Hippel-Lindau disease
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What is the most common lethal genetic disease of the white population?
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CF
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Which autosomal dominant disorder confers an increased risk for MI at age 20?
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familial hypercholesterolemia (hyperlipidemia type IIA)
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What is the pathogenesis of cystic fibrosis?
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autosomal recessive defect in CFTR gene on chromosome 7 (deltaP508) --> abnormal protein folding --> degradation of Cl- channel before reaching cell surface --> decreased secretion of Cl- into lungs and GI tract, decreased absorption of Cl- from sweat --> secretion of abnormally thick mucus --> development of mucus plugs in pancreas, liver, and lungs --> recurrent pulmonary infections (most commonly Psuedomonas aeruginosa, S. aureus, H. influenzae); chronic bronchitis, bronchiectasis, pancreatic insufficiency (malabsorption syndrome causing steatorrhea and fat soluble vitamin deficiency); nasal polyps; meconium ileus in newborns; failure to thrive in infancy ALSO bilateral absence of vas deference in males --> infertility
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I say "meconium ileus," you say...?
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cystic fibrosis
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Infection by what agent is the most common cause of death in CF patients?
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P. aeruginosa
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What is the treatment for CF and what is its mechanism of action?
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DRUG N-acetylcysteine/mucormyst MOA cleavage of disulfide bonds within mucus glycoproteins --> loosening of mucus plugs
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What is the diagnostic test for CF?
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increased concentration of Cl- ions in sweat test
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Why are females with X-linked recessive disorders likely to have less severe symptoms?
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random X chromosome inactivation in each cell (formation of Barr bodies)
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What is the pathogenesis of Duchenne's muscular dystrophy?
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X-linekd FRAMESHIFT mutation --> deletion of dystrophin gene (DMD) --> accelerated muscle breakdown --> weakness in pelvic girdle muscles, progressing superiorly; fibrofatty replacement of muscle --> pseudohypertrophy of calf muscles; cardiac myopathy
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What is the longest known human gene?
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DMD, coding for dystrophin Because it is so long, there is an increased rate of spontaneous mutation; this is why there are so many possible mutations causing Duchenne's muscular dystrophy
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What is Gowers' maneuver, and of what is it indicative?
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DEFINITION individual, usually a boy <5, uses upper extremities to stand up DISEASE Duchenne's muscular dystrophy
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What is the function of dystrophin?
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anchoring of muscle fibers, primarily cardiac and skeletal
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What is Becker's muscular dystrophy?
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a less severe type of Duchenne's muscular dystrophy; onset in adolescence or early adulthood
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What is the most common cause of mental retardation?
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Down syndrome
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What is the second most common cause of mental retardation?
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Fragile X syndrome
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What is the pathogenesis of Fragile X syndrome?
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X-linked trinucleotide repeat disorder (CGG)n --> defect in methylation and expression of FMR1 gene --> macroorchidism (enlarged testes), long face with large jaw; large everted ears; autism; mitral valve prolapse --fragile X =eXtra large testes, jaw, ears--
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Name the trinucleotide repeat expansion diseases.
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HUNTINGton's myotonic dystrophy FRIEDreich's ataxia fragile X --TRI HUNTING for MY FRIED eggs (x)--
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For each trinucleotide repeat expansion disease, name the trinucleotide involved.
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fragile X: (cGg)n Friedreich's ataxia: (gAa)n Huntington's: (cAg)n MYotonic dystrophy: (cTg)n --X-Girlfriend's First Aid Helped Ace MY Test.--
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Which of the following are trinucelotide repeat expansion diseases likely to show? incomplete penetrance anticipation variable presentation heteroplasmy codominance dominant negative mutation
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anticipation
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What are the three autosomal trisomies not fatal in utero?
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Down (trisomy 21) Edwards' (trisomy 18) Patau's (trisomy 13) --Drinking age, Election age, Puberty age.--
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What is the genetic cause of the majority of Down cases? And the remainder?
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95% due to meiotic nondisjunction of homologous chromosomes, associated with advanced maternal age (1:25 in women >45 but only 1:1500 in women <20) 4% due to Robertsonian translocation 1% due to Down mosaicism (no maternal association)
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What are the findings in Down syndrome? What is the life expectancy?
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mental retardation flat facies prominent epicanthal folds simian crease gap between first two toes duodenal atresia congenital heart disease (ostium primum type ASD most common) increased risk of ALL and Alzheimer's (>35 years of age) LIFE EXPECTANCY 45 years
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What test can be given in pregnancy to diagnose Down syndrome?
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PREGNANCY QUAD SCREEN decreased alpha-fetoprotein, increased beta-hCG, decreased estriol, increased inhibin A ULTRASOUND IN FIRST TRIMESTER increased nuchal translucency
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What are the findings in Edwards' syndrome? What is the life expectancy?
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severe mental retardation rocker-bottom feet micrognathia (small jaw) LOW-SET EARS clenched hands prominent occiput congenital heart disease LIFE EXPECTANCY 1 year
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What are the results of the pregnancy quad screen in Edwards' syndrome?
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decreased alpha-fetoprotein decreased beta-hCG decreased estriol normal inhibin A
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What are the findings in Patau's syndrome?
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severe mental retardation rocker-bottom feet microphtalmia microcephaly CLEFT LIP/PALATE HOLOPROSENCEPHALY polydactyly congenital heart disease LIFE EXPECTANCY 1 year max
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What are the results of the first-trimester pregnancy screen in Patau's syndrome?
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decreased free beta-hCG decreased PAPP-A increased nuchal translucency
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Name the trisomy: decreased free beta-hCG decreased PAPP-A increased nuchal translucency
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Patau's
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Name the trisomy: decreased alpha-fetoprotein increased beta-hCG decreased estriol increased inhibin A
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Down
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Name the trisomy: decreased alpha-fetoprotein decreased beta-hCG decreased estriol normal inhibin A
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Edwards'
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What is the incidence rate for the three autosomal trisomies not fatal in utero?
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DOWN 1:700 EDWARDS' 1:8000 PATAU'S 1:15000
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What is a Robertsonian translocation?
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nonreciprocal chromosomal translocation commonly involving chromosome pairs 13, 14, 15, 21, and 22; one of the most common types of translocation; occurs when the long arms of 2 acrocentric chromosomes fuse at the centromere and the two short arms are lost
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What is an acrocentric chromosome?
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chromosome with centromere near the end, thus having very short arms
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When are Robertsonian translocations of clinical significance?
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when they are unbalanced; these cause miscarriage, stillbirth, and chromosomal imbalance
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What is the genetic basis for cri-du-chat syndrome?
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congenital microdeletion of short arm of chromosome 5 (46,XX or XY, 5p--)
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What are the findings in cri-du-chat syndrome?
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microcephaly moderate to severe mental retardation high-pitched crying or mewing epicanthal folds cardiac abnormalities (most often VSD)
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What is the genetic basis of Williams syndrome?
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congenital microdeletion of long arm of chromosome 7, deletion include elastin gene
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What is the presentation of Williams syndrome?
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distinctive "elfin" facies intellectual disability hypercalcemia (increased sensitivity to vitamin D) well-developed verbal skills ("5 favorite animals" will include made-up animals, dinosaurs, etc) extreme friendliness with strangers cardiovascular problems NOTE modern research is disproving some of the above. For your own information (though the above is likely to be tested on Step): http://www.ncbi.nlm.nih.gov/pubmed/1133652
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What are the two 22q11 deletion syndromes?
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DiGeorge syndrome (thymic, parathyroid, cardiac defects) velocardiofacial syndrome (palata, facial, cardiac defects)
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What is the presentation (although variable) of 22q11 deletion syndromes?
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Cleft palate Abnormal facies Thymic aplasia --> T cell deficiency Cardiac defects Hypocalcemia secondary to parathyroid aplasia 22q11 --CATCH 22--
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What branchial pouches are involved in 22q11 deletion syndromes?
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3rd and 4th
