Biochemistry - Genetics Part 1

Question 1

Approximately what percentage of individuals with von Hippel-Lindau disease will develop bilateral renal cell carcinomas?

Answer 1

50%

Question 2

The vascular tumors of von Hippel-Lindau disease are commonly seen in which parts of the nervous system?

Answer 2

Retina, cerebellum, medulla

Question 3

What is the pathophysiology of von Hippel-Lindau disease?

Answer 3

A tumor suppressor is deleted, leading to constitutive expression of hypoxia-inducible factors and an overabundance of vascular growth factors

Question 4

The defect that leads to von Hippel-Lindau disease is found on chromosome _____.

Answer 4

3 (remember: Von Hippel-Lindau = 3words for chromosome 3)

Question 5

What is the mode of inheritance of albinism?

Answer 5

Autosomal recessive

Question 6

What is the mode of inheritance of 1antitrypsin deficiency?

Answer 6

Autosomal recessive

Question 7

What is the mode of inheritance of phenylketonuria?

Answer 7

Autosomal recessive

Question 8

What is the mode of inheritance of the thalassemias?

Answer 8

Autosomal Recessive

Question 9

What is the mode of inheritance of sickle cell disease?

Answer 9

Autosomal recessive

Question 10

What is the mode of inheritance of the glycogen storage diseases?

Answer 10

Autosomal recessive

Question 11

What is the mode of inheritance of most mucopolysaccharidoses

Answer 11

Autosomal recessive

Question 12

Most mucopolysaccharidoses are inherited in a(n) _____-_____ pattern, except for _____ _____.

Answer 12

Autosomal Recessive ;

Hunter’s Disease

Question 13

Most sphingolipidoses are inherited in a(n) _____-_____ pattern, except for _____ _____.

Answer 13

Autosomal recessive ;

Fabry’s Disease

Question 14

What is the mode of inheritance of hemochromatosis?

Answer 14

Autosomal recessive

Question 15

What is the pattern of inheritance of cystic fibrosis?

Answer 15

Autosomal recessive

Question 16

Cystic fibrosis results from a defect in which gene? Which chromosome? Which ion channel?

Answer 16

CFTR ; 7 ; chloride

Question 17

Patients with cystic fibrosis characteristically have mucus plugs that disturb the function of which three organs?

Answer 17

The pancreas, the lungs, and the liver

Question 18

Which two pathogens are the most likely to cause recurrent pulmonary infections in a patient with cystic fibrosis?

Answer 18

Pseudomonas species and Staphylococcus aureus

Question 19

Recurrent pulmonary infections in patients with cystic fibrosis result in what pulmonary pathology?

Answer 19

Bronchiectasis

Question 20

An infant with failure to thrive also had meconium ileus as a newborn. What is the most likely diagnosis?

Answer 20

Cystic Fibrosis

Question 21

How is cystic fibrosis diagnosed?

Answer 21

High concentrations of chloride ions in the sweat

Question 22

A male patient with cystic fibrosis asks you whether he will be able to have children; what is your response?

Answer 22

Unfortunately, males with cystic fibrosis are infertile due to bilateral absence of the vas deferens

Question 23

A patient with cystic fibrosis is at increased risk for the deficiency of what four vitamins?

Answer 23

Vitamins A, D, E, and K, all of which are fat soluble

Question 24

What is the most common lethal genetic disease among Caucasians?

Answer 24

Cystic Fibrosis

Question 25

Treatment with what drug helps to loosen mucous plugs in patients with cystic fibrosis?

Answer 25

N-acetylcysteine

Question 26

How does N-acetylcysteine free up mucous plugs?

Answer 26

It cleaves the disulfide bonds that connect mucous glycoproteins

Question 27

What is the pattern of inheritance of fragile X syndrome?

Answer 27

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 28

What is the pattern of inheritance of Duchenne’s muscular dystrophy?

Answer 28

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 29

What is the pattern of inheritance of haemophilia A and B?

Answer 29

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 30

What is the pattern of inheritance of Fabry’s Disease?

Answer 30

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 31

What is the patten of inheritance of G6PD deficiency?

Answer 31

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 32

What is the pattern of inheritance of Hunter’s Syndrome?

Answer 32

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 33

What is the pattern of inheritance of ocular albinism?

Answer 33

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 34

What is the pattern of inheritance of Lesch-Nyhan syndrome?

Answer 34

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 35

What is the pattern of inheritance of Bruton’s agammaglobinaemia?

Answer 35

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 36

What is the pattern of inheritance of Wiskott-Aldrich Syndrome?

Answer 36

X-linked recessive

remember: Be Wise, Fool;s GOLD Heeds False Hope

Question 37

What conditions does the following pneumonic help you remember, and how are they all linked?

Be Wise, Fool’s GOLD Heeds False Hope

Answer 37

Bruton's agammaglobinaemia
Wiskott-Aldrich Syndrome
Fabry's Disease
G6PD deficiency
Ocular albinism
Lesch-Nyhan Syndrome
Duchenne Muscular Dystrophy
Haemophilia A and B
Fragile X Syndrome
Hunter's Disease

They are all X-linked recessive conditions

Question 38

True or False? Hunter’s syndrome has the same pattern of inheritance as Hurler’s syndrome.

Answer 38

False ; Hunter’s syndrome has X-linked recessive inheritance, whereas Hurler’s syndrome has autosomal-recessive inheritance

Question 39

Why are female carriers of X-linked recessive disorders rarely affected?

Answer 39

There is random inactivation of X chromosomes in each cell, a process known as lyonization

Question 40

Duchenne’s muscular dystrophy is caused by a deletion of what gene?

Answer 40

The dystrophin gene (remember: Duchenne;s = Deleted Dystrophin)

Question 41

Is the loss of the dystrophin gene in Duchenne;s muscular dystrophy the result of frameshift, missense, nonsense, or silent mutations?

Answer 41

Frameshift mutation

Question 42

What is the pathophysiology of Duchenne;s muscular dystrophy?

Answer 42

Dystrophin anchors muscle fibers in the membrane and lack of the protein leads to accelerated muscle breakdown

Question 43

At what age do Becker;s and Duchenne;s muscular dystrophy present?

Answer 43

Before the age of 5 years

Question 44

In what muscle group does weakness normally begin in patients with Duchenne;s muscular dystrophy?

Answer 44

Pelvic girdle muscles

Question 45

A 4-year-old boy needs to use his upper extremities to push against his legs in order to stand up. What is the name of this maneuver?

Answer 45

Gower’s manoeuvre; the action is necessary due to the weakness of the proximal muscles

Question 46

A 4-year-old boy with Duchenne;s muscular dystrophy has hypertrophied calf muscles; what is the expected strength in his legs?

Answer 46

This is actually psuedohypertrophy due to fibrofatty replacement of the muscle and you would expect muscle weakness

Question 47

What organ other than skeletal muscle is affected in Duchenne;s muscular dystrophy?

Answer 47

Heart

Question 48

What aspect of the dystrophin gene makes it particularly susceptible to mutation?

Answer 48

The dystrophin gene (DMD) is the largest known human gene, which allows a high rate of spontaneous mutations

Question 49

Is Becker;s muscular dystrophy more or less severe than Duchenne;s muscular dystrophy?

Answer 49

Becker’s muscular dystrophy is less severe and presents later in life

Question 50

How is muscular dystrophy diagnosed?

Answer 50

Biopsy of skeletal muscle and elevated creatine phosphokinase

Question 51

Fragile X syndrome is caused by a defect in which gene?

Answer 51

FMR1; the name of the gene stands for Familial Mental Retardation

Question 52

What are the two most common genetic causes of mental retardation?

Answer 52

Down’s Syndrome and Fragile X Syndrome

Question 53

A male patient has a long face, a large jaw, large ears, autism, and macroorchidism. What is the most likely diagnosis?

Answer 53

Fragile X Syndrome (remember Fragile X = eXtra large testes, jaw and ears)

Question 54

What triplet is expanded in fragile X syndrome and what is the result of this repeat?

Answer 54

CGG; aboormal methylation of the FMR1 gene

Question 55

True or False? Fragile X syndrome is associated with chromosomal breakage.

Answer 55

True

Question 56

Name four diseases that result from trinucleotide repeat expansion.

Answer 56

Huntington’s Disease, myotonic dystrophy, Friedrich’s ataxia, Fragile X Syndrome (remember: Try (tri nucleotide) hunting for my fried eggs X)

Question 57

What does anticipation refer to in genetic disease?

Answer 57

Anticipation involves an increase in disease severity and an earlier age of onset in successive generations

Question 58

Myotonic dystrophy is associated with a _____ (CTG/CGG) repeat, while fragile X syndrome has a _____ (CTG/CGG) repeat.

Answer 58

CTG; CGG

remember myoTonic dystrophy = CTG, fraGile X = CGG

Question 59

Huntington;s disease has a _____ repeat, while Friedreich;s ataxia is a repeat of _____ nucleotides.

Answer 59

CAG; GAA

Question 60

A patient has a flat facial profile, prominent epicanthal folds, and a simian crease. This patient also has mental retardation. What is the most likely diagnosis?

Answer 60

Down’s Syndrome

Question 61

A newborn is diagnosed with Down syndrome. She is vomiting bilious material. What is the most likely cause?

Answer 61

Duodenal atresia

Question 62

A newborn is diagnosed with Down syndrome. He has a heart murmur on examination. What is the most likely cause?

Answer 62

Atrial Septal Defect

Question 63

What type of atrial septal defect is most common in patients with Down syndrome?

Answer 63

Septum-primum type

Question 64

What is the most common chromosomal disorder?

Answer 64

Down’s Syndrome

Question 65

Patients with Down syndrome who are more than 35 years old have an increased risk of what neurodegenerative disease?

Answer 65

Alzheimer’s Disease

Question 66

Patients with Down syndrome have an increased risk of what type of leukemia?

Answer 66

ALL

Question 67

Ninety-five percent of cases of Down syndrome are caused by the _____ of homologous chromosomes during the cell division process of _____.

Answer 67

Nondisjunction; meiosis

Question 68

What is the likelihood of a 20-year-old woman having a baby with Down syndrome? A 45-year-old woman?

Answer 68

1:1500 ; 1:25

Question 69

What is the most common genetic mechanism leading to Down syndrome?

Answer 69

Meiotic nondisjunction

Question 70

What results in the prenatal quad screen indicate possible Down syndrome?

Answer 70

Alpha fetoprotein, hCG, unconjugated oestriol, and inhibin A

Question 71

Down syndrome is also known as trisomy _____.

Answer 71

21 (remember Drinking age = 21)

Question 72

Which trisomy is the most common: 13, 18, or 21? What is the least common?

Answer 72

21 (1:700)

13 (1:15,000)

Question 73

What is the other name for trisomy 18?

Answer 73

Edwards Syndrome (Election age = 18)

Question 74

What are the clinical features of trisomy 18?

Answer 74

Mental retardation, rocker-bottom feet, micrognathia, low-set ears, clenched hands, prominent occiput, congenital heart disease

Question 75

What is the prognosis for a patient with trisomy 18?

Answer 75

Death within the first year of life

Question 76

A baby has low-set ears, micrognathia, a prominent occiput, rocker bottom feet, and clenched hands. What is the most likely diagnosis?

Answer 76

Edwards Syndrome

Question 77

A newborn has microphthalmia, microcephaly, cleft lip, cleft palate, and polydactyly. What is the most likely diagnosis?

Answer 77

Patau’s Syndrome

Question 78

Patau;s syndrome is also known as trisomy _____.

Answer 78

13 (Puberty = 13)

Question 79

What are the clinical manifestations of trisomy 13?

Answer 79

Severe mental retardation, rocker-bottom feet, microphthalmia, microcephaly, cleft lip/palate, holoprosencephaly, polydactyly, congenital heart disease

Question 80

True or False? Newborns with trisomy 13 and newborns with trisomy 18 have similar expected life spans.

Answer 80

True ; infants with both of these conditions are expected to die before the age of 1 year

Question 81

The life expectancy for patients with trisomy 21 is _____ (1 year/20-40 years/45-50 years).

Answer 81

45-50 years

Question 82

What is a Robertsonian translocation?

Answer 82

It is a nonreciprocal translocation of chromosome pairs, such that chromosomes carry genetic information in an uneven manner

Question 83

What makes chromosomes 13, 14, 15, 21, and 22 candidates for Robertsonian translocations?

Answer 83

They are acrosomal chromosomes, which means that the centromere is located near one end rather than in the middle

Question 84

How do acrosomal chromosomes align to create a Robertsonian translocation?

Answer 84

The long arms match up and fuse at the centromere, losing the short arms of the chromosomes

Question 85

Does a Robertsonian translocation always result in a loss of genetic material?

Answer 85

A balanced translocation retains all genetic material and will not have any abnormal phenotype; if the translocation is unbalanced, genetic material is lost and abnormalities result

Question 86

True or False? An unbalanced Robertsonian translocation may cause a chromosomal imbalance, but rarely miscarriage or stillbirth.

Answer 86

False; unbalanced translocations may result in miscarriage, stillbirth, or chromosomal imbalance such as Down’s or Patau’s Syndrome

Question 87

The two types of chromosomal inversions are called _______ and _____inversions.

Answer 87

Pericentric and paracentric

Question 88

In chromosomal inversions, _____ (pericentric/paracentric) inversion involves the centromere and proceeds through meiosis.

Answer 88

Pericentric

Question 89

In chromosomal inversions, _____ (pericentric/paracentric) inversion does not involve the centromere and does not proceed through meiosis.

Answer 89

Paracentric

Question 90

How does a chromosomal inversion modify the affected chromosome?

Answer 90

It reverses one segment of the chromosome end-to-end

Question 91

The deletion of the short arm of chromosome 5 leads to what disease?

Answer 91

Cri-du-chat syndrome

Question 92

A newborn has microcephaly and epicanthal folds and produces a high-pitched crying or mewing sound. What is the most likely diagnosis?

Answer 92

Cri-du-chat Syndrome

Question 93

What are the clinical manifestations of cri-du-chat syndrome?

Answer 93

Microcephaly, moderate to severe ental retardation, high-pitched crying/mewing, epicanthal folds, cardiac abnormalities

Question 94

Cri-du-chat syndrome is caused by a deletion of the _____ arm of chromosome ____.

Answer 94

Short ; 5

Question 95

What disease is caused by a microdeletion of the long arm of chromosome 7?

Answer 95

Williams Syndrome

Question 96

Among others, what connective tissue gene is deleted in Williams syndrome?

Answer 96

Elastin gene

Question 97

Patients with Williams syndrome typically have _____ (coarse/masked/elfin) facies.

Answer 97

Elfin

Question 98

A patient has an extreme friendliness towards strangers and cheerful disposition, with noted mental retardation and cardiovascular disease; what is the diagnosis?

Answer 98

Williams Syndrome

Question 99

In spite of their mental retardation, in which cognitive area are patients with Williams syndrome typically advanced?

Answer 99

Patients with Williams syndrome typically have well-developed verbal skills

Question 100

Microdeletions at chromosome 22q11 can present as a spectrum of diseases including which two recognized syndromes?

Answer 100

DiGeorge Syndrome or Velocardiofacial Syndrome

Question 101

What disease is caused by microdeletions at 22q11 and involves defects of the thymus, the parathyroid, and the heart?

Answer 101

DiGeorge SYndrome

Question 102

What disease is caused by microdeletions at 22q11 and involves defects of the palate, the face, and the heart?

Answer 102

Velocardiofacial syndrome

Question 103

True or False? 22q11 Syndromes are associated with B cell deficiency.

Answer 103

False ; 22q11 syndromes are associated with T cell lymphocyte deficiency due to thymic aplasia

Question 104

True or False? 22q11 Syndromes are associated with hypercalcemia.

Answer 104

False ; 22q11 syndromes are associated with hypocalcaemia due to parathyroid aplasia

Question 105

Name 5 findings associated with 22q11 deletion syndromes.

Answer 105

CATCH-22 ; Cleft Palate, Abnormal facies, Thymic aplasia, Cardiac defects, Hypocalcaemia

Question 106

What embryonic structures are altered in 22q11 syndromes?

Answer 106

These syndromes are due to aberrant development of the third and fourth branchial pouches

Question 107

True or False? 22q11 Syndromes are X-linked recessive and show anticipation.

Answer 107

False ; 22q11 syndromes are due to microdeletions on chromosome 22 and have variable presentations