Block 7 Genetis From Shelf W Expl

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Block 7 Genetis From Shelf W Expl - Quiz

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Questions and Answers
  • 1. 

    The  wife  of a  48-year-old male patient  brings him  to the  emergency room and  says that his memory has  progressively gotten  worse  over  the last  several  years. She  also  says  his personality  has been   changing.  The   physician  notes   abnormal  writhing   movements  of   the  man's   limbs  and hyperreactive  reflexes. MRI  reveals a  loss of  volume in  the neostriatum  and cortex.  This disease is inherited via an

    • A. 

      Autosomal dominant trait

    • B. 

      Autosomal recessive trait

    • C. 

      X-linked dominant trait

    • D. 

      X-linked recessive trait

    Correct Answer
    A. Autosomal dominant trait
    Explanation
    This patient has Huntington's disease, which has autosomal dominant
    inheritance. It is characterized by severe degeneration of the caudate nucleus along with
    degenerative changes in the putamen and cortex. In addition to chorea, these patients frequently
    suffer from athetoid (writhing) movements, progressive dementia, and behavioral disorders.

    Genotype Enzyme Activity Phenotype G/G 100 Normal G/D 75 Normal G/LA 120 Normal G/g 50 Normal
    D/D 50 Normal D/LA 95 Normal LA/LA 140 Normal LA/g 70 Normal g/g

    Rate this question:

  • 2. 

    Tissue  from a  spontaneous  abortion is  submitted  to  the laboratory,  where  an astute  pathologist notes  the  presence of  mature  fetal  tissue  that contains  Barr  bodies.  The  fetus may  have  had which of the following genotypes?

    • A. 

      Classic Turner syndrome (45, X)

    • B. 

      Edward's syndrome (47, XY+18)

    • C. 

      Klinefelter's syndrome (47, XXY)

    • D. 

      Normal male (46, XY)

    • E. 

      XYY syndrome (47, XYY)

    Correct Answer
    C. Klinefelter's syndrome (47, XXY)
    Explanation
    The correct answer is C. The Barr body, or X chromatin body, is an inactivated X chromosome seen
    as a small, perinuclear, dark-staining dot in somatic cells with two or more X chromosomes. Barr
    bodies are seen in any individual born with at least two X chromosomes, including normal
    females. (47, XXY), the classic karyotype of Klinefelter's syndrome, is defined as male
    hypogonadism due to the presence of a Y chromosome and two or more X's. As in normal females,
    one of the X chromosomes becomes a Barr body in Klinefelter's syndrome.

    Classic Turner syndrome females (choice A) and genotypically normal males (choice D) have only
    one X chromosome. Thus, no X chromosome is inactivated, and somatic cells do not show any Barr
    bodies.

    (47, XY+18) is the karyotype of an Edward's syndrome (choice B) fetus. Although this trisomic
    phenotype is associated with a characteristic syndrome of physical abnormalities, there is no
    programmed inactivation of the extra chromosome 18. Thus, no Barr body is produced.

    XYY syndrome (choice E) is not associated with inactivation of any X chromosomes, so Barr bodies
    are not present. Like a trisomy involving any of the non-sex-linked chromosomes, the duplicated
    chromosome is expressed in its entirety.

    Rate this question:

  • 3. 

    Karyotypic   analysis   of  a  spontaneously   aborted  fetus  demonstrates   trisomy  of  one  of  the chromosomes. Which chromosome is most likely to be affected?  

    • A. 

      8

    • B. 

      13

    • C. 

      16

    • D. 

      18

    • E. 

      21

    Correct Answer
    C. 16
    Explanation
    The correct answer is C. Approximately half of all spontaneous abortions are of fetuses with
    major chromosomal defects, most commonly trisomy 16, triploidy (due to fertilization of an egg
    by two sperm), and 45 X,0 (Turner's syndrome). Trisomy 16 and triploidy do not produce viable
    offspring, unlike 45 X,0.

    Trisomy 8 (choice A) is one of the very rare causes of live birth trisomies.

    Trisomy 13 (choice B) is one of the more common live birth trisomy syndromes (Patau syndrome).

    Trisomy 18 (choice D) is one of the more common live birth trisomy syndromes (Edwards' syndrome)

    Trisomy 21 (choice E) causes Down's syndrome.

    Rate this question:

  • 4. 

    On  physical examination,  a  newborn is  found  to  have micrognathia,  a  prominent occiput,  low-set ears,  and rocker-bottom  feet. There  is very  little mental  development during  the first  months of life  and the  infant dies  of  cardiac complications  after 8  months.  A complete  karyotype of  this child would yield which of the following?

    • A. 

      XO

    • B. 

      XXY

    • C. 

      Trisomy 13

    • D. 

      Trisomy 18

    • E. 

      Trisomy 21

    Correct Answer
    D. Trisomy 18
    Explanation
    The correct choice is D. This chromosomal aberration is also known as Edwards' syndrome, or
    trisomy 18. It is characterized by mental deficiency, growth retardation, prominent occiput,
    micrognathia, low-set ears, rocker-bottom feet, and ventricular septal defect.

    XO (choice A) is the karyotype of Turner syndrome. It is characterized by short stature, webbed
    neck, and hypogonadism.

    XXY (choice B) represents Klinefelter syndrome. It is usually undetected at birth but is
    characterized by tall stature, male hypogonadism, and sometimes, mental retardation.

    Trisomy 13 (Patau syndrome; choice C) is characterized by mental retardation, nervous system
    malformations, rocker-bottom feet, polydactyly, and cleft lip and palate.

    Trisomy 21 (Down syndrome; choice E) is characterized by mental retardation, protruding tongue,
    simian crease, congenital heart defects, and a flat nasal bridge.

    Rate this question:

  • 5. 

    A  15-year-old  boy  is  evaluated  by  a  clinician for  failure  to  develop  normal  male  secondary sexual   characteristics.   Physical  examination   reveals   small   testes,   a  small   penis,   and gynecomastia.  The boy  has had  some  difficulties in  school, and  the  parents say  that the  school psychometrist  said  he had  an IQ  of 90.  This patient's  condition is  most likely  to be related to which of the following?

    • A. 

      Deletion

    • B. 

      Nondisjunction of an autosomal chromosome

    • C. 

      Nondisjunction of a sex chromosome

    • D. 

      Non-Robertsonian translocation

    • E. 

      Robertsonian translocation

    Correct Answer
    C. Nondisjunction of a sex chromosome
    Explanation
    The correct answer is C. The boy probably has Klinefelter's syndrome (47, XXY), which has the
    typical presentation described in the question. The condition arises as a result of failure of
    separation (nondisjunction) of the sex chromosomes, and can be related to either paternal
    nondisjunction (slightly more common) or maternal nondisjunction.

    Deletions (choice A) are a common form of genetic disease and contribute to many genetic
    recessive diseases.

    Examples of nondisjunction of autosomes (choice B) include trisomies such as most cases of
    Down's syndrome (trisomy 21), Edwards' syndrome (trisomy 18), and Patau syndrome (trisomy 13).

    There are two types of translocations: non-Robertsonian (choice D) and Robertsonian (choice E).
    Non-Robertsonian (reciprocal) translocations result when two non-homologous chromosomes exchange
    genetic material. Robertsonian translocations are a special type of translocation that involve
    exchange of genetic material from the long arms of one acrocentric chromosome to the long arms
    of another acrocentric chromosome, with fusion of the centromeres. Four percent of cases of
    Down's syndrome are caused by this mechanism.

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  • 6. 

    A  20-year-old develops  weakness  accompanied by  difficulty  in relaxation  that  is most  pronounced in   the  hands  and  feet.  Muscle  biopsy  demonstrates  prominent  ring  fibers,  centrally  located nuclei,   chains   of  nuclei,   and  disorganized   sarcoplasmic  masses.   This  condition  has  been associated with a mutation on which of the following chromosomes?

    • A. 

      X

    • B. 

      Y

    • C. 

      4

    • D. 

      5

    • E. 

      19

    Correct Answer
    E. 19
    Explanation
    The disease is myotonic dystrophy, which is an autosomal dominant
    disease; the affected gene has been localized to chromosome 19. Myotonic dystrophy is relatively
    common and is best thought of as a systemic disease, since it causes cataracts, testicular
    atrophy, heart disease, dementia, and baldness in addition to muscular weakness.

    A mutation on the X chromosome (choice A) causes Duchenne muscular dystrophy.

    None of the muscle diseases are known to be related to defects on the Y chromosome (choice B).
    Facioscapulohumeral dystrophy is associated with a defective gene on chromosome 4 (choice C).

    Infantile hypotonia has been related to defective genes on chromosome 5 (choice D).

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  • 7. 

    Which of the following diseases has an X-linked recessive inheritance pattern?

    • A. 

      Alpha1-antitrypsin deficiency

    • B. 

      Cystic fibrosis

    • C. 

      Duchenne muscular dystrophy

    • D. 

      Phenylketonuria

    • E. 

      Tay-Sachs disease

    Correct Answer
    C. Duchenne muscular dystrophy
    Explanation
    The correct answer is C. Duchenne-type muscular dystrophy is the only disease listed that is X-
    linked; the other diseases are autosomal recessive. Remembering the genetics of myriads of
    diseases is very problematic, but here are some imperfect rules of thumb that can help you out
    if you encounter an unfamiliar disease on an examination. Deficiencies of most enzymes are
    recessive (either autosomal or X-linked), since each person has at least two copies (from each
    of the parents) of each enzyme, and one working gene is usually enough (although careful
    evaluation of heterozygotes often shows mildly altered physiology). In contrast, alterations in
    structural proteins are often autosomal dominant, since having any amount of abnormal protein in
    structures such as basement membranes or in collagen tends to disturb their function. The number
    of common X-linked diseases (almost all recessive) is small, and can be memorized: Duchenne
    muscular dystrophy, hemophilia A and B, chronic granulomatous disease, glucose-6- phosphate
    dehydrogenase deficiency, agammaglobulinemia, Wiskott-Aldrich syndrome, diabetes insipidus,
    Lesch-Nyhan syndrome, fragile-X syndrome, and color blindness.

    Alpha1-antitrypsin deficiency (choice A) is a deficiency of an enzyme (alpha1-antitrypsin) that
    inhibits the action of various proteolytic enzymes. The two autosomal alleles for alpha1-
    antitrypsin are codominantly expressed such that they both contribute to the levels of
    circulating alpha1-antitrypsin.

    Cystic fibrosis (choice B) is an autosomal recessive disorder. The gene for cystic fibrosis has
    been localized to chromosome 7.

    Phenylketonuria (choice D), in its classical form, is an autosomal recessive deficiency of
    phenylalanine hydroxylase.

    Tay-Sachs disease (choice E) is an autosomal recessive deficiency of the enzyme hexosaminidase
    A.

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  • 8. 

    An  infant  develops  tetany on  the  second  day  of  life.  Physical examination  is  remarkable  for dysmorphic   facies   with  low-set   ears  and  micrognathia.   Determination  of  serum  electrolytes reveals   severe  hypocalcemia.   Which  of  the  following  chromosomal  aberrations  is  most  likely responsible for this presentation?

    • A. 

      Deletion in chromosome 22

    • B. 

      Monosomy of chromosome 5

    • C. 

      Translocation of chromosome 21

    • D. 

      Trisomy of chromosome 13

    • E. 

      Trisomy of X chromosome

    Correct Answer
    A. Deletion in chromosome 22
    Explanation
    DiGeorge syndrome is caused by malformation of the third and fourth
    pharyngeal pouches, leading to absence of the thymus and parathyroid glands, among other
    abnormalities. It was originally believed that DiGeorge syndrome was an acquired abnormality,
    but recent studies suggest that deletions of chromosome 22q11 are frequently involved. Infants
    afflicted with this syndrome present as dysmorphic babies who develop convulsions or tetany a
    short time after birth due to severe hypocalcemia caused by a lack of parathyroid hormone. These
    patients are very difficult to manage, and frequently have severe associated cardiac defects
    that may lead to death. Survivors often have at least small amounts of residual thymic tissue,
    and have a few circulating T cells that tend to slowly increase with age. Antibody production is
    usually adequate.

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  • 9. 

    Slightly mentally  retarded individual  with menstrual  irregularities is  found to  have a  47, XXX karyotype. The average life span for individuals with this condition is

    • A. 

      10-20 years

    • B. 

      20-30 years

    • C. 

      30-40 years

    • D. 

      40-50 years

    • E. 

      normal

    Correct Answer
    E. normal
    Explanation
    47, XXX is a surprisingly benign condition, the incidence of which is
    unknown because most cases are never diagnosed, as a normal phenotype with normal life span is
    typical. There is some increase in the incidence of mental retardation and menstrual
    irregularities in the population, particularly with increasing numbers of supernumerary X
    chromosomes. Presumably, the inactivation of the extra X chromosome (forming a second Barr body
    that may be observed on a buccal smear examined for other reasons) limits the expression of the
    extra genes.

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  • 10. 

    A  cloned DNA  fragment, when  used as  a  probe, reveals  a restriction  fragment length  polymorphism (RFLP)  in the  region adjacent  to  the centromere  of chromosome  21.  Four haplotypes  exist: A,  B, C,  and D.  An  AB woman  and  a CD  man  have  a child  with  trisomy 21  who  is ACC.  Nondisjunction occurred in

    • A. 

      The child during the first mitotic division

    • B. 

      The father during meiosis I

    • C. 

      The father during meiosis II

    • D. 

      The mother during meiosis I

    • E. 

      The mother during meiosis II

    Correct Answer
    C. The father during meiosis II
    Explanation
    The RFLP detects a region near the centromere of chromosome 21. The
    region around the centromere exhibits a phenomenon called crossover suppression. Since genetic
    exchange cannot happen in this area, the probe is a reliable marker for the individual
    chromosomes. During meiosis II, sister chromatids, which are two identical copies of the same
    chromosome, should separate. If a nondisjunction event occurs in this division, two copies of
    the same chromosome are passed to the progeny. In this case, both parents are heterozygous for
    the probe. The child received an A from the mother and two Cs from the father, leading us to
    conclude that the problem occurred in the father during meiosis II.
    Choice A (the child during the first mitotic division). If a nondisjunction event of chromosome
    21 occurs early in development, a child that is a mosaic for trisomy 21 is the result. This
    accounts for approximately 1% of children with trisomy 21. Since some of their cells are normal,
    these individuals show only a mild expression of the trisomy 21 phenotype.

    Choice B (the father during meiosis I). During meiosis I, homologues that carry similar but not
    identical information separate. If a failure occurred in this division, we would expect the man
    to pass CD and the woman to pass A or B, producing a child that was ACD or BCD.

    Choice D (the mother during meiosis I). If an AB woman had a failure in meiosis I, an AB gamete
    would be produced. When fertilized by the man's C or D sperm, a child that was ABC or ABD would
    result.

    Choice E (the mother during meiosis II). If an AB woman's sister chromatids failed to disjoin
    during meiosis II, AA or BB gametes would result. When fertilized by the CD male's sperm, a
    child that was AAC, AAD, BBC, or BBD would result.

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  • 11. 

    Examination  of a  karyotype  taken from  a  metaphase preparation  reveals the  presence  of an  extra chromosome. Which of the following is the most common mechanism of producing this phenomenon?

    • A. 

      Balanced translocation

    • B. 

      Chromosomal breakage

    • C. 

      Fertilization by two sperm

    • D. 

      Nondisjunction

    • E. 

      Unbalanced translocation

    Correct Answer
    D. Nondisjunction
    Explanation
    Nondisjunction can occur in both meiosis and mitosis, and refers to a
    failure of paired chromosomes to separate and go to different daughter cells. When this happens,
    one daughter cell gets an extra chromosome and the other daughter cell is "short" one
    chromosome.

    A balanced translocation (choice A) is an exchange of genetic material between non-homologous
    chromosomes that preserves all critical genetic material.

    Chromosomal breakage (choice B) produces fragmented chromosomes and can contribute to
    tumorigenesis.

    Fertilization by two sperm (choice C) produces triploidy and is seen in many spontaneously
    aborted fetuses.

    An unbalanced translocation (choice E) occurs when non-homologous chromosomes exchange genetic
    material with a net loss or gain of critical genetic material.

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  • 12. 

    A  13-year-old boy  is brought  to  a rural  clinic because  of  poor school  performance. His  parents state  that  he did  not  begin  talking until  after  three  years of  age,  and  still does  not  use language  as effectively  as his  sister, who  is 6-years-old.  A careful  family history  reveals that a   maternal  grandfather  was  mildly  retarded.  The  mother  has  two  sisters,  both  of  whom  are apparently  normal,  but the  mother admits  that she  did not  do well  in school,  and dropped out at the  age of  16.  Physical examination  of the  child  reveals large  ears,  a long,  narrow face,  and large  testes.  Which of  the  following  genetic mechanisms  most  likely  accounts for  the  observed findings in the son?

    • A. 

      Expanded trinucleotide repeat

    • B. 

      Genomic imprinting

    • C. 

      Robertsonian translocation

    • D. 

      Trisomy 13

    • E. 

      Trisomy 18

    Correct Answer
    A. Expanded trinucleotide repeat
    Explanation
    The features described are typical of the familial form of mental
    retardation known as fragile X syndrome. This disorder is the second most common heritable cause
    of mental retardation, second only to Down syndrome. Striking features of this disease are that
    the clinical features tend to worsen with each successive generation, and that males are usually
    much more severely affected than females, although nearly 50% of carrier females are at least
    slightly mentally retarded. The explanation appears to involve a region of DNA on the X
    chromosome that normally contains 6-54 tandem repeats of the sequence CGG. Carrier females for
    fragile X syndrome may have up to 200 CGG repeats. Clinically affected individuals have
    250-4,000 repeats of the CGG sequence. The greater the number of repeats, the more severe the
    retardation tends to be. Amplification of premutations to full mutations appears much more
    likely to occur during oogenesis than spermatogenesis.

    Genomic imprinting (choice B) is a phenomenon in which the phenotypic expression of a gene
    differs if the gene is inherited from the mother, rather than the father. An example of this
    effect is Angelman ("happy puppet") syndrome, caused by a deletion of band q12 in the maternal
    copy of chromosome 15. A similar deletion in the paternal chromosome 15 produces a different
    disease called Prader-Willi syndrome.

    A Robertsonian translocation (choice C) causes about 5% of cases of Down syndrome. Generally the
    mother [typically with genotype 45, XX, -14, -21, +t(14q; 21q)] has normal mentation, but some
    of her children may carry the translocation in addition to the normal maternal chromosome 21 and
    normal paternal chromosome 21, producing partial trisomy 21. This form of Down syndrome can
    appear to be a recessive genetic disease.

    Trisomy 13 (Patau syndrome; choice D) is characterized by microcephaly, mental retardation,
    cleft lip and palate, polydactyly, and rocker-bottom feet. Survival is rare beyond one year.

    Trisomy 18 (Edwards syndrome; choice E) is characterized by mental retardation, micrognathia,
    low-set ears, cardiac defects, renal defects, and rocker-bottom feet. Survival is rare beyond
    one year.

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  • 13. 

    In  a  certain  population, the  frequency  of  color-blind  males  is  1  in 100.  Assuming  that  the population  is in  Hardy-Weinberg  equilibrium at  this  locus, the  frequency  of color-blind  females is approximately

    • A. 

      0.0001

    • B. 

      0.0005

    • C. 

      0.01

    • D. 

      0.02

    • E. 

      0.025

    Correct Answer
    A. 0.0001
    Explanation
    Color blindness is an X-linked recessive trait. A male is hemizygous
    for the X chromosome, and thus has only one copy of each trait. The frequency of an X-linked
    recessive in males is thus equal to the frequency of the allele in the population. From this, we
    know that q = 0.01 and p = 0.99. A female has two copies of each gene on the X chromosome, so
    the equation for Hardy-Weinberg equilibrium is the same as for the autosomal traits. In this
    case, a homozygous recessive female would occur at a frequency of q2 or 0.0001.

    Choice B, 0.0005, is incorrect. If you remembered that color blindness was more frequent in
    males, but did not know how to use the equations to get the true estimate, you might have
    guessed this answer.

    Choice C, 0.01, makes the assumption that the trait is autosomal, and so the frequencies of
    affected males and affected females are equal.

    Choice D, 0.02, assumes that q = 0.01, and then calculates the frequency of carrier females
    (2pq).

    Choice E, 0.025 is also incorrect; it is a distracter.

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  • 14. 

    A  3  year-old boy  is brought to  a physician  because the  mother notices that  the child is engaging in  less active  play and  tires easily.  During physical  examination, the  pediatrician notices  that the  child's thighs  are  larger than  normal  for  age and  that  the child  cannot  stand up  without using  his  arms  to help.  Further  studies  demonstrate  a  defective  dystrophin gene  in  the  boy. Which of the following people in the child's family is most likely to also have this disease?

    • A. 

      Father

    • B. 

      Father's brother

    • C. 

      Mother

    • D. 

      Mother's brother

    • E. 

      Sister

    Correct Answer
    D. Mother's brother
    Explanation
    The correct answer is D. The disease is Duchenne muscular dystrophy, an X-linked recessive
    muscular disease usually caused by a deletion involving the dystrophin gene. This defect
    produces accelerated muscle breakdown leading initially to proximal muscle weakness, then later
    to generalized weakness that typically begins before age 5. A feature of X-linked recessive
    diseases is that carrier mothers pass the disease to half their sons; affected fathers can have
    carrier daughters but not affected sons. Since the mother is presumably normal (because the
    disease is X-linked), she must be a carrier to have an affected son, and the grandmother must
    also be a carrier, therefore the mother's brother (maternal uncle) may also have the disease.

    The father's (choice A) side of the family, including the father's brother (choice B), most
    likely does not carry the defective gene (since they themselves would be affected, and
    furthermore since the father cannot pass the gene on to a son). It would be extremely unlikely
    for a carrier female to marry an affected male (and the question does not mention any similar
    symptoms in the father).

    The mother (choice C) and possibly the sister (choice E) are carriers of, but not affected by,
    the defective gene.

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  • 15. 

    A  retarded  45-year-old man  living in  Mexico becomes  ill with  pneumonia and  his family brings him across  the border  to the  United States.  He succumbs  to his  illness and  an autopsy  is performed. Neuropathological  examination of  his  brain  reveals neuritic  plaques  and neurofibrillary  tangles. Which of the following was the most likely cause of this man's retardation?  

    • A. 

      Down's syndrome

    • B. 

      Edwards' syndrome

    • C. 

      Fragile X syndrome

    • D. 

      Patau syndrome

    • E. 

      Supernumerary Y syndrome

    Correct Answer
    A. Down's syndrome
    Explanation
    The correct answer is A. Features of Down's syndrome (trisomy 21) in children include mental
    retardation, epicanthal folds, dysplastic ears, hypotonia, a horizontal palmar crease (simian
    crease), redundant neck skin, and a short trunk. However, most of these children eventually grow
    to adulthood. At that point, the aging parents may have to deal with a physically strong and
    healthy mentally retarded individual who is experiencing a deterioration in mental function.
    This deterioration may be accompanied by aggressive behavior (as in the elderly with Alzheimer's
    disease) arising out of the patient's diminishing ability to reason or understand his
    environment.

    Edwards' syndrome (choice B), or trisomy 18, causes death in infancy. Characteristics include
    rocker-bottom feet, low-set ears, micrognathia, congenital heart disease, and mental
    retardation.

    Fragile X syndrome (choice C) is associated with enlarged testes as well as mental retardation.
    The condition is unusual in that it is related to expansion of a CGG repeat sequence located on
    the X chromosome.

    Patau syndrome (choice D), or trisomy 13, is characterized by severe mental retardation,
    microcephaly, microphthalmia, polydactyly, cleft lip and palate, renal defects, and cardiac
    abnormalities. Affected infants typically die before the age of 1.

    The effects of supernumerary Y chromosomes (choice E; most commonly XYY) include increased
    stature, aggressive behavior, and infertility, but a supernumerary Y chromosome is sometimes
    found in otherwise normal individuals.

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  • 16. 

    During  the process  of meiosis,  a single  homologous  chromosome pair  fails to  separate during  the first  meiotic  division.  This failure  would  be  most  likely  to  produce which  of  the  following conditions if fertilization occurs and an embryo later develops?

    • A. 

      Balanced translocation

    • B. 

      Triploidy

    • C. 

      Trisomy

    • D. 

      Unbalanced translocation

    • E. 

      Uniploidy

    Correct Answer
    C. Trisomy
    Explanation
    The correct answer is C. The process described is nondisjunction, which will cause one daughter
    cell to have 24 chromosomes while the other will have 22 chromosomes. When a gamete with the
    normal 23 chromosomes combines at fertilization with a gamete with 22 or 24 chromosomes, the
    embryo will have 47 chromosomes (trisomy) or 45 chromosomes (monosomy). Nondisjunction can occur
    in either the first or second meiotic division.

    Balanced translocation (choice A) occurs when non-homologous chromosomes exchange genetic
    material in such a way that no critical genetic material is lost.

    Triploidy (choice B) is the term used when a cell has 69 chromosomes (3 of each), and can occur
    in tumors or when an egg is fertilized by two sperm.

    An unbalanced translocation (choice D) occurs when non-homologous chromosomes exchange genetic
    material with a net loss or gain of critical genetic material.

    Uniploidy (choice E) is the state of having 23 chromosomes, seen normally in sperm and eggs.

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  • 17. 

    Physical  examination of  a  neonate demonstrates  abnormal  facies  with a  small  lower jaw,  low-set ears,  and  a  prominent occiput.  The  feet  have  a  rocker-bottom  deformation, and  the  infant  is hypertonic.  Cardiac evaluation  demonstrates  a  ventricular septal  defect.  Which  of the  following is the average life-span for infants with this neonate's syndrome?

    • A. 

      2-3 months

    • B. 

      1-2 years

    • C. 

      4-7 years

    • D. 

      15-25 years

    • E. 

      Normal life expectancy

    Correct Answer
    A. 2-3 months
    Explanation
    The syndrome described is Edwards' syndrome (trisomy 18), which is
    typically characterized by the features noted and additionally causes severe mental retardation,
    which would not be recognizable in the neonatal period. This disease is relatively common, with
    an incidence of about 1 in 5000 births (Down syndrome has an incidence of 1 in 2000 births). The
    average life span is only 2-3 months.

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  • 18. 

    A  6-month-old  child with  severe  mental  retardation is  brought  to  a specialty  clinic.  Physical examination  is remarkable  for  microcephaly, a  cat-like  cry,  and an  anti-mongoloid  slant to  the palpebral fissures. This child should be further evaluated for which of the following disorders?

    • A. 

      Duodenal atresia

    • B. 

      Hepatocellular carcinoma

    • C. 

      Nephroblastoma

    • D. 

      Renal cysts

    • E. 

      Ventricular septal defect

    Correct Answer
    E. Ventricular septal defect
    Explanation
    The correct answer is E. The presentation is classic for cri-du-chat syndrome, caused by a
    deletion of the short arm of chromosome 5 (5p-). Approximately one-quarter of such patients have
    a ventricular septal defect. Other features of the syndrome include short stature, distorted
    laryngeal anatomy, profound mental retardation, microcephaly, a wide nasal bridge, and an anti-
    mongoloid slant to the palpebral fissures. The laryngeal malformation causes feeding and
    respiratory difficulties, as well as the cat-like cry, which typically disappears by age 1. Many
    patients survive to adulthood, but are usually institutionalized.

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  • 19. 

    A  42-year-old  woman  is pregnant  and  undergoes  amniocentesis.  The  results of  the  amniocentesis are  consistent  with  trisomy 21,  but  the  woman  wishes  to  carry  the pregnancy  to  term.  After birth,  this  child  will  be  at  increased  risk for  the  development  of  which  of  the  following neoplasms?

    • A. 

      Acute lymphoblastic leukemia

    • B. 

      Basal cell carcinoma

    • C. 

      Colon cancer

    • D. 

      Glioblastoma multiforme

    • E. 

      Hodgkin's disease

    Correct Answer
    A. Acute lymphoblastic leukemia
    Explanation
    In addition to the well-known mental retardation associated with Down's
    syndrome (trisomy 21), affected individuals have an increased incidence of a variety of medical
    problems. Acute myeloblastic leukemia is seen in newborns and acute lymphoblastic leukemia is
    seen in older children. Epilepsy, which can be very difficult to manage, affects up to 10% of
    children with Down's. On occasion, the malformed head and neck region can undergo atlantoaxial
    dislocation, causing a sudden or progressive quadriparesis. Congenital malformations of the
    cardiac system are common (40% of cases), and include (in decreasing order of frequency) atrial
    and ventricular septal defects, tetralogy of Fallot, and patent ductus arteriosus. The
    development of the hypopharynx is often poor, predisposing to both aspiration pneumonia and
    obstruction by enlarged adenoids. Other malformations that occur with lower frequency include
    duodenal atresia and imperforate anus. Acquired autoimmune hypothyroidism is frequent. Boys are
    infertile; girls are subfertile but can get pregnant. Alzheimer-like changes develop in mid-
    adulthood. Visual problems related to strabismus, nystagmus, or myopia are common. None of the
    other neoplasms occur with increased frequency in individuals with trisomy 21.

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  • 20. 

    A  baby  is born  with  a  small  head,  small eyes,  and  6  fingers  on  each hand.  Two  dimensional echocardiography  reveals congenital  heart  defects.  Which of  the  following  genetic conditions  is most likely to be the cause of this child's presentation?

    • A. 

      Trisomy 13

    • B. 

      Trisomy 18

    • C. 

      Trisomy 21

    • D. 

      XXY

    • E. 

      XYY

    Correct Answer
    A. Trisomy 13
    Explanation
    The correct answer is A. This is Patau syndrome, or trisomy 13. This disorder is also associated
    with severe mental retardation, abnormal forebrain structures, and death within one year of
    birth. Patau syndrome has an incidence of 1:6000 births, making it the second most common form
    of autosomal trisomy.

    Trisomy 18 (choice B) is Edwards syndrome, characterized by severe mental retardation, rocker
    bottom feet (also sometimes seen in Patau syndrome, so be careful!), low-set ears, micrognathia,
    clenched hands, prominent occiput, and death within one year. Edwards syndrome has an incidence
    of 1:8000, making it the third most common autosomal trisomy.

    Trisomy 21 (choice C) is Down syndrome, and is characterized by mental retardation, flat facial
    profile, prominent epicanthal folds, simian crease, duodenal atresia, and congenital heart
    disease. Down syndrome is the most common autosomal trisomy, with an incidence of 1:700.

    XXY (choice D) is Klinefelter syndrome and is associated with male hypogonadism and infertility,
    eunuchoid body habitus, gynecomastia, and lack of male secondary sexual characteristics

    XYY (choice E) is double Y syndrome. Affected individuals often go undetected, but may be taller
    than average, and may be more likely to exhibit aggressive, antisocial behavior.

    Rate this question:

  • 21. 

    A  43-year-old man  is  brought to  the  general  medicine clinic  by  his wife.  She  states that  his memory  has progressively  deteriorated over  the  last several  years,  and that  his personality  has been  changing.  On  examination,  the  physician  notes abnormal,  writhing  movements  of  the  man's limbs  and hyperreactive  patellar  reflexes. An  MRI of  the  head reveals  a  loss of  volume in  the neostriatum   and  cortex.  A  family  history  reveals  that  similar  symptoms  occurred  in  several members  of the  patient's  family. Which  of  the  following genetic  mechanisms  has been  implicated in this disorder?

    • A. 

      Expanded trinucleotide tandem repeat

    • B. 

      Genomic imprinting

    • C. 

      Large deletion in one gene

    • D. 

      Single amino acid substitution

    • E. 

      Translocation

    Correct Answer
    A. Expanded trinucleotide tandem repeat
    Explanation
    The correct answer is A. The disease described is Huntington's disease, which is now known to be
    related to an expanded trinucleotide tandem repeat on the short arm of chromosome 4. The number
    of trinucleotide repeats frequently increases in succeeding generations during the process of
    spermatogenesis.

    Prader-Willi and Angelman syndromes are frequently cited examples of genetic diseases involving
    genomic imprinting (choice B).

    Duchenne's muscular dystrophy is an example of a disease that is frequently due to a large
    deletion in a single gene (choice C).

    Single amino acid substitutions (choice D) are common in recessive diseases such as sickle cell
    anemia.

    Translocations (choice E) occur in disorders such as chronic myelogenous leukemia (CML;
    Philadelphia chromosome) and some cases of Down's syndrome.

    Rate this question:

  • 22. 

    A  10-year-old boy  with  the  facies and  many  other  critical features  of  Down's  syndrome has  an intelligence  quotient  (IQ)  in the  mid-normal  range.  Which  of  the following  genetic  mechanisms would most likely account for the discrepancy between the child's IQ and his appearance?

    • A. 

      Balanced translocation

    • B. 

      Chiasma

    • C. 

      Mosaicism

    • D. 

      Spermiogenesis

    • E. 

      Synapsis

    Correct Answer
    C. Mosaicism
    Explanation
    The correct answer is C. Mosaicism is the term used when cells with more than one type of
    genetic constitution are present in the same organism. The scenario described in the question
    uncommonly occurs when nondisjunction of chromosome 21 occurs during mitosis (rather than
    meiosis) in one of the early cell divisions. The degree to which the individual expresses the
    characteristics of the syndrome depends on the number of cells involved and their distribution.

    Balanced translocation (choice A) does not produce features of any syndrome, because critical
    genetic material is not lost, although progeny may be affected when the translocated chromosome
    is added to a complement of otherwise normal chromosomes.

    Chiasma (choice B) refers to the "X"-shape of chromosomes undergoing exchange of genetic
    material in crossover.

    Spermiogenesis (choice D) refers to the development of sperm precursors into mature sperm.

    Synapsis (choice E) refers to the pairing of homologous chromosomes in the first meiotic
    division.

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  • 23. 

    A  couple  has a  daughter who  is ataxic  and has a  seizure disorder.  She also  has a strange affect characterized  by  excessive laughter  at  inappropriate  times.  Cytogenetic analysis  demonstrates  a normal  genotype  with 46  chromosomes  and  no apparent  deletions.  These  symptoms are  most  likely due to

    • A. 

      A point mutation in an autosome

    • B. 

      Confined placental mosaicism

    • C. 

      Expansion of a trinucleotide repeat

    • D. 

      Random inactivation of the X chromosome

    • E. 

      Uniparental disomy

    Correct Answer
    E. Uniparental disomy
    Explanation
    The correct answer is E. The child described is exhibiting the features of Angelman (happy
    puppet) syndrome. This disorder is generally caused by a deletion of band q12 in the maternal
    copy of chromosome 15, i.e., [(del (15)(q11q13)]. A similar deletion in the paternal chromosome
    15 produces Prader-Willi syndrome. The disparate expression of the effects of deletions in the
    paternal vs. the maternal chromosomes is called genomic imprinting, and implies that the same
    genetic loci are expressed quite differently in maternal and paternal chromosomes. Angelman
    syndrome can also occur if uniparental disomy occurs for chromosome 15 such that the embryo
    receives two copies of the paternal chromosome 15 without the maternal chromosome 15 to
    "balance" the paternal contribution.

    Point mutation in autosomes (choice A) has not been associated with Angelman syndrome.

    Confined placental mosaicism (choice B) is due to a mutation occurring within trophoblast or
    extraembryonic precursor cells of the inner cell mass and is an important cause of intrauterine
    growth retardation.

    Expansion of a trinucleotide repeat (choice C) is associated with Fragile X syndrome and
    Huntington disease.

    Random inactivation of the X chromosome (choice D) occurs normally, as postulated in the Lyon
    hypothesis.

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  • 24. 

    Retinoblastoma is associated with an abnormality in which chromosome?

    • A. 

      5

    • B. 

      8

    • C. 

      13

    • D. 

      21

    • E. 

      X

    Correct Answer
    C. 13
    Explanation
    The correct answer is C. About 20% of patients with chromosome 13 abnormality (13q-syndrome)
    develop retinoblastoma. There is also a genetic dominant form of retinoblastoma that has an 80%
    penetrance rate. Retinoblastomas that have a genetic basis are more apt to be bilateral than the
    spontaneous lesions. Microscopically, retinoblastomas are composed of masses of small
    hyperchromatic cells that may form small rosettes composed of radially arranged cells
    surrounding a central lumen.

    Rate this question:

  • 25. 

    A  family is  referred  to a  genetic  specialist because  of  mild mental  retardation  in several  of the  school-age children.  Laboratory  evaluation  demonstrates a  specific  chromosomal breakage  site in   metaphase  studies   of  lymphocytes   cultured  with   methotrexate.  Which   of  the   following chromosomes is most likely to be specifically affected?

    • A. 

      X

    • B. 

      Y

    • C. 

      13

    • D. 

      18

    • E. 

      21

    Correct Answer
    A. X
    Explanation
    The correct answer is A. The heritable mental retardation condition associated with chromosomal
    breakage is fragile X syndrome. The break point is at q27.3 on the X chromosome. The test for
    this condition involves culturing lymphocytes in either folate-deficient medium or with chemical
    agents such as methotrexate that tend to break chromosomes. To make the diagnosis, at least 4%
    of metaphase chromosomes must show the specific break-point on the X chromosome. The percentage
    of defective X-chromosomes above 4% does not correlate well with the degree of mental
    retardation. The breakage point is a site of CGG trinucleotide repeats, which tend to expand in
    successive generations, producing the clinical feature of worsening mental retardation in each
    generation.

    Y chromosome (choice B) damage is not part of fragile X syndrome, but loss of this chromosome is
    one mechanism of producing 45, X0 (Turner syndrome), characterized by mental retardation.

    Trisomy 13 (choice C, Patau syndrome), trisomy 18 (choice D, Edward's syndrome) and trisomy 21
    (choice E, Down's syndrome) are all associated with mental retardation, but not chromosomal
    breakage syndromes.

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  • 26. 

    Examination  of a  late  aborted fetus  reveals  a small  head,  small eyes,  prominent  cleft lip  and palate,  6 fingers  on each  hand,  and dextrocardia.  The  developmental abnormalities  noted in  this fetus were probably due to

    • A. 

      5p-

    • B. 

      45, XO

    • C. 

      Trisomy 13

    • D. 

      Trisomy 18

    • E. 

      Trisomy 21

    Correct Answer
    C. Trisomy 13
    Explanation
    The correct answer is C. Chromosomal aberrations are common in spontaneously aborted fetuses.
    This fetus has Patau syndrome (trisomy 13). A convenient way to remember trisomy 13 is to think
    of polydactyly (remembered as 13 fingers) and midline defects including microphthalmia (rarely
    just one central "eye"), cleft lip, palate, or face; arrhinencephalia (failure of development of
    olfactory nerves and related brain); and dextrocardia or ventricular septal defect. The head is
    usually small, with profound mental retardation. In fetuses that survive until birth, death
    usually occurs in the neonatal period. Patau syndrome has an incidence of 1 in 6000 births.

    Features of Cri du Chat syndrome (5p-; choice A) include a cat-like cry, severe mental
    retardation, microcephaly, and epicanthal folds.

    Features of Turner's syndrome (45, X0; choice B) include webbed neck, short stature, broad
    chest, low hairline, primary amenorrhea, coarctation of aorta and streak ovaries.

    Features of Edwards' syndrome or trisomy 18 (choice D) include severe mental retardation,
    ventricular septal defect, micrognathia, rocker-bottom feet, low-set ears, prominent occiput,
    and hypotonia.

    Features of Down syndrome or trisomy 21 (choice E) include mental retardation, flat nasal
    bridge, epicanthal folds, oblique palpebral fissures, dysplastic ears, horizontal palmar crease,
    redundant neck skin, short trunk, ventricular septal defect, acute lymphoblastic leukemia, and
    neurologic changes similar to those of Alzheimer's disease.

    Rate this question:

  • 27. 

    A  5-year-old  mentally retarded  boy is  brought to  the city  from a  rural community for evaluation. A  careful history  reveals mental  retardation in  a number  of other  family members,  especially the males.  Physical  examination  is remarkable  for  a  long  face  with  large  ears, a  large  jaw  and bilateral enlargement of the testes. This presentation is suggestive of

    • A. 

      Down's syndrome

    • B. 

      Edward's syndrome

    • C. 

      Fragile X syndrome

    • D. 

      Klinefelter's syndrome

    • E. 

      Turner's syndrome

    Correct Answer
    C. Fragile X syndrome
    Explanation
    The correct answer is C. Enlarged testes are the most specific phenotypic feature to suggest
    Fragile X syndrome in an individual who appears to have a hereditary mental retardation. The
    condition has unusual genetics as it is related to expansion of a CGG repeat sequence located on
    the X chromosome. The larger the number of repeats, the higher the probability of significant
    retardation, hence the retardation tends to become more severe in successive generations, as
    more CGG repeats accumulate. Sisters of affected males tend to show milder retardation than
    their brothers.

    Features of Down's syndrome (choice A), or trisomy 21, include mental retardation, epicanthal
    folds, dysplastic ears, hypotonia, a horizontal palmar crease (simian crease), redundant neck
    skin, and a short trunk.

    Edwards' syndrome (choice B), or trisomy 18, causes death in infancy. Characteristics include
    rocker bottom feet, low set ears, micrognathia, congenital heart disease, and mental
    retardation.

    Klinefelter's syndrome (47, XXY; choice D) is associated with testicular atrophy, a eunuchoid
    body shape, long extremities, and a small penis.

    Turner's syndrome (45, X; choice E) produces a female phenotype with short stature, ovarian
    dysgenesis and webbing of the neck.

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  • 28. 

    A  boy with  Duchenne muscular  dystrophy (DMD)  was  born to  parents with  no family  history of  the disease. The most likely explanation for this occurrence is

    • A. 

      A CGG expansion that resulted in the disruption of the promoter of the dystrophin gene

    • B. 

      Infidelity

    • C. 

      A point mutation in the dystrophin gene

    • D. 

      A recombination event in the dystrophin gene that gave rise to a frameshift mutation leading to an untranslatable mRNA

    • E. 

      A translocation that resulted in the disruption of the dystrophin gene

    Correct Answer
    D. A recombination event in the dystrophin gene that gave rise to a frameshift mutation leading to an untranslatable mRNA
    Explanation
    The correct answer is D. Duchenne muscular dystrophy (DMD) is a lethal, X-linked recessive
    disease affecting approximately 1 in 3300 live male births. The disease becomes symptomatic in
    early childhood. Inability to walk occurs by the end of the first decade, and death usually
    occurs by the second decade. Nearly all patients show the complete absence of the protein
    dystrophin, which is abundant in skeletal and cardiac muscle. The dystrophin gene (or DMD gene),
    located at Xp21, is approximately 2300 Kb in size, making it one of the largest known genes of
    any species. It contains 24 regions of 109 amino acids that are similar but not identical
    repeats of each other. In women, the similarity of these sequences can lead to the misalignment
    of homologous material at meiotic synapsis. In association with a recombination event, this
    misalignment gives rise to frameshift mutations, leading to an untranslatable mRNA. This series
    of events occurs at an extremely high rate of about 1 in 10,000. In fact, one third of DMD cases
    in each generation arise from this mechanism.

    Diseases such as fragile X syndrome and Huntington disease are caused by the expansion of a
    trinucleotide repeat (choice A).

    Infidelity (choice B) is not a plausible explanation for the child because the trait is an X-
    linked recessive condition. A male child must receive the DMD trait on the maternal X
    chromosome. The father of the child contributes only a Y chromosome, and the history stated that
    the mother had no family history of the disorder.

    DMD in a patient with no family history is not generally due to a point mutation in the
    dystrophin gene (choice C).

    Rare cases of DMD in females have been caused by an X chromosome-autosome translocation (choice
    E) with the breakpoint on the X chromosome within the DMD gene. Because of the translocation,
    only the cells in which the normal X chromosome is inactivated survive in the female zygote.
    This gives rise to a female who is heterozygous for the DMD gene but phenotypically expresses
    the disease.

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  • 29. 

    Tay-Sachs  disease, an  autosomal recessive  disease caused  by a  deficiency of  hexosaminidase A,  is lethal  in  childhood. In  a  population  of  Ashkenazi Jews,  blood  testing  shows the  frequency  of heterozygotes  to be  0.1.  What is  the  probability that  the  first child  of  two individuals  from this population with no family history of the disease will have Tay-Sachs?

    • A. 

      0.25

    • B. 

      0.11

    • C. 

      0.0625

    • D. 

      0.0025

    • E. 

      Cannot be calculated from the information given

    Correct Answer
    D. 0.0025
    Explanation
    The correct answer is D. Since Tay-Sachs is lethal in childhood, the only adults carrying the
    gene are heterozygotes. The only mating that will produce progeny with the disease is the mating
    between two heterozygotes. Using the blood test data, the probability that a random individual
    is a heterozygote is 0.1. The probability that two heterozygotes will produce a child with Tay-
    Sachs disease is 0.25. So, the overall probability that two individuals in the population will
    produce a child with Tay-Sachs is (0.1)(0.1)(0.25), or 0.0025.

    Choice A, 0.25, could be obtained if the parents are carriers, so the probability of a Tay-
    Sachs child is equal to the probability that two heterozygotes will produce a child with the
    disease, or 0.25.

    Choice B, 0.11, could be obtained if both of the parents had a sibling with Tay-Sachs. This
    would mean that the grandparents must have carried the disease, and that their normal children
    had a 0.67 chance of carrying the allele. This gives the probability that the parent's child
    would have Tay-Sachs as (0.67)(0.67)(0.25), or 0.11.

    Choice C, 0.0625, is also incorrect. It is the product of (0.25)(0.25).

    Choice E incorrectly assumes that because q2, the frequency of the disease, cannot be
    calculated, and hence the allele frequencies cannot be calculated, that an estimate of the
    frequency of heterozygotes cannot be made. The problem can be done, however, because the
    heterozygote frequency (0.1) was given in the question stem.

    Rate this question:

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