First Aid: Biochem/Microbio

Question 1

2 syndromes that can be caused by a Robertsonian translocation

Answer 1

Downs (trisomy 21) and Patau (trisomy 13)

Robertsonian translocation = when the long arms of 2 acrocentric chromosomes (ones w/ centromere at the ends) fuse and the short arms are lost => chromosomal imbalance

Question 2

Angelman syndrome

(a) Etiology
(b) Clinical features

Answer 2

Angelman syndrome

(a) Gene on chrom 15: paternal allele is imprinted (methylated/turned off), maternal allele is mutated or deleted => disease
(b) ‘Happy puppet’- inappropriate laughter
seizures, ataxia, severe intellectual disability

Question 3

Differentiate utility of karyotype vs. FISH to detect genetic abnormality

Answer 3

Karyotype looks at larger/chromosomal abnormalities, while FISH can look for presence/absence of genes at the molecular level (can look for smaller changes not seen by karyotype)

Karyotype can be done on blood, bone marrow tissue, placenta, amniotic fluid

Question 4

Differentiate types of DNA mutations: missense, nonsense, frameshift

Answer 4

• missense = substitution that causes change in amino acid in one place of the protein
• nonsense = substitution that codes for a premature stop codon
• frameshift totally messes it up = addition or deletion that ruins the 3 divisibility => usually results in truncated/nonfunctional protein

Question 5

Chromosomal d/o of chrom 7

Answer 5

Chrom 7 microdeletion = Williams syndrome: heart defect, ‘elfin’ faces, extreme friendliness w/ strangers

Cystic fibrosis

Question 6

Explain how alternative splicing increases the number of proteins possible

Answer 6

The same exons can be spliced together in different ways (orders) to make a larger variation of proteins from the same genetic code

Question 7

Differentiate the composition of euk vs. prok ribosomes

Answer 7

Eukaryotic ribosome = 40S + 60S subunits = 80S

Prokaryotic ribosome = 30S + 50S = 70S

Question 8

Describe how scurvy causes signs/symptoms by interaction w/ collagen production

Answer 8

Vitamin C is needed by enzyme used in collagen hydroxylation (done in RER before exocytosed)

So vit C deficiency => deficiency in collagen

Question 9

How does the base composition of DNA alter the melting point

Answer 9

CG has a triple bond while AT only has a double bond => the higher the CG content = higher the melting point of the DNA

Question 10

Fxn of peroxisomes

Answer 10

Peroxisomes catabolize very long chain fatty acids, branched chain fatty acids, and amino acids

Question 11

Briefly explain the molecular mechanism of fatty deposition in liver in alcoholism

Answer 11

The enzymatic reaction of ethanol metabolism increases the ratio of NADH / NAD+ in the liver which favors certain reactions including

• increase glycerol-3 phosphate which combines w/ fatty acids
• increased acetyl-coA which favors ketogenesis and lipolysis

Basically creates a lot of NADH that needs to get reduced which favors certain reactions cause fatty deposition

Question 12

MC mutation causing Ehlers-Danlos

(a) Clinical features

Answer 12

Ehler-Danlos = CT d/o, MC from mutation in type V collagen

(a) Hyperextensible skin, tendency to bleed (bruise easily), hypermobile joints

Question 13

What is the mRNA start codon?

(a) What does this code for in eukaryotes?
(b) In prokaryotes?

Answer 13

mRNA start codon = AUG
‘AUG’ments translation

(a) Codes for methionine in eukaryotes which is removed before protein synthesis is final
(b) codes for fMet in prokaryotes

Question 14

Eukaryotic RNA polymerases, functions of

(a) I
(b) II
(c) III
(d) Differences from DNA polymerase

Answer 14

Eukaryotes have 3 (not just one) separate types of RNA, numbered in order that their product is used in protein synthesis

(a) RNA I forms rRNA
(b) RNA II forms mRNA
(c) RNA III forms tRNA
(d) RNA polymerases can initiate strand formation, but have no proofreading abilities

Question 15

Distinguish the 4 types of collagen

Answer 15

Collagen I (90%) in bone, skin, tendon, dentin, fascia, cornea, late wound repair

Collagen II: cartilage, nucleus pulposis

Collagen III: reticulin

Collagen IV: basement membrane
-defective in Alports disease, targeted in Goodpastures

Question 16

What site on tRNA is the amino acid bound to?

Answer 16

Amino acid is bound to the 3’ end of tRNA at the 5’ - CCA - 3’ acceptor site

Question 17

Which type of blotting procedure would be best for

(a) Studying level of gene expression
(b) Confirming positive ELISA test for HIV

Answer 17

Blotting tests:
SNoW DRoP

Southern detects DNA
Northern detects RNA
Western detects proteins
Southwestern identifies DNA-binding proteins

(a) Study level expression by quantifying mRNA = Northern blot
(b) Confirm by detecting protein made by HIV virus, protein detected by Western blot

Question 18

What part of the cell cycle is regulated by

(a) Tumor suppressor genes
(b) cyclin-CKD

Answer 18

Cell cycle

(a) Tsgs prevent cells in G0 (non-dividing stage) from entering G1 (growing phase that then leads to S-phase)
(c) Cyclin-cyclin dependent kinases: cyclin activates CKDs, then complex phosphorylates other proteins to coordinate cell cycle progression at all steps

Question 19

Folate vs. cobalmin deficiency

(a) Anemia
(b) Neurologic symptoms
(c) Homocystine and MMA levels
(d) Which is more common?

Answer 19

B9 vs. B12 deficeincy

(a) Both cause megaloblastic anemia
(b) B12 deficiency has neurologic symptoms (subacute combined degeneration) while B9 deficiency doesn’t
(c) Folate (B9) deficiency => elevated homocyestine, normal MMA
B12 deficiency => elevated both homocysteine and MMA
(d) Folate deficiency more common b/c large B12 stores in liver

Question 20

What is ergosterol?

(a) Drug target for what?

Answer 20

Ergosterol = sterol in the cell membranes of fungi, acts as cholesterol does in eukaryotes to keep the plasma membrane fluid

(a) Anti-fungals can act to inhibit the enzymes that make ergosterol => fungi can’t live

Question 21

Describe the calculations for frequency of the following for a population in Hardy-Weinberg equilibrium

(a) homozygosity for allele p
(b) homozygosity for allele q
(c) heterozygosity

Answer 21

Hardy-Weinberg equilibrium

p2 + 2pq + q2 = 1, p + q = 1

(a) p2
(b) q2
(c) 2pq

Question 22

Chromosomal abnormality of what number leads to

(a) NF1
(b) NF2
(c) DiGeorge

Answer 22

(a) NF1 = chrom 17
(b) NF2 = chrom 22
(c) DiGeorge = 22q11 (‘catch 22”) on chrom 22

Question 23

Duchenne muscular dystrophy

(a) Mode of inheritance
(b) Classic clinical features
(c) Age of onset
(d) Cause of death

Answer 23

DMD

(a) X-linked recessive
(b) Gower’s sign, calf pseudohypertrophy
(c) Before age 5
(d) Dilated cardiomyopathy
- b/c dystrophin is needed in both skeletal and cardiac muscle to anchor intra and extracellular matrix

Question 24

Retinol

(a) Fxn
(b) Clinical features of deficiency
(c) Contraindication to vit A derivative

Answer 24

Retinol = vit A

(a) antioxidant, visual pigments
(b) Night blindness, corneal degeneration, scaly skin, immunosuppression
(c) Pregnancy
- isotrentin can cause cleft palate and cardiac abnormalities if taken during pregnancy (teratogen)

Question 25

Chromatin

(b) What type of chromatin is transcribed?
(c) What type of chromatin are histone bodies?

Answer 25

Chromatin = condensed DNA

(a) Euchromatin is transcribed
(b) Histone bodies and other transcriptionally inactive chromatin = heterochromatin

Question 26

Describe the calculations for frequency of the following for a population in Hardy-Weinberg equilibrium

(a) X-linked recessive disease in males
(b) X-linked recessive disease in females

Answer 26

Hardy-Weinberg equilibrium

p2 + 2pq + q2 = 1, p + q = 1

(a) males = q
(b) females = q2 (b/c ned two copies)

Question 27

Clinical features of familial hypercholesterolemia

Answer 27

Familial hypercholesterolemia = mutation/deletion in LDL-receptor

• severe early atherosclerotic disease
• cornea arcus
• tendon xanthomas (classically in Achilles tendon)

Question 28

What is a microarray?

Answer 28

Microarray = grid containing DNA or RNA probes to scan amount of complementary binding

Used for genotyping, forensics, genetic linkage, cancer mutations

Question 29

Name the 4 trinucletoide repeat d/o

Answer 29

“Help memorize frinucl fre-peat”

• Huntington’s
• Myotonic dystorphy
• Friderich’s ataxia
• Fragile X

Question 30

D/o of what chromosome causes Wilms tumor

Answer 30

Chrom 11

Question 31

Name the 3 stop codons

Answer 31

UGA, UAA, UAG

U Go Away
U Are Away
U Are Gone

Question 32

2 tests used to confirm dx of Duchenne muscular dystrophy

Answer 32

Western blot for lack of dystrophin protein

Muscle biopsy

Question 33

Where does the energy to form the peptide bone during protein synthesis come from?

Answer 33

ATP catalyzes covalent bond btwn amino acid and CCA 3’ end of tRNA molecule

Then during translation the energy of this covalent bond is used by the ribozyme (rRNA) to form peptide bond

Question 34

What is Lisch-Nyhan Syndrome

(a) Etiology
(b) Clinical features

Answer 34

Lisch-Nyhan Syndrome

(a) Aut recessive loss of HGPRT gene needed for purine salvage => purines shunted to uric acid
(b) HGPRT
- hyperuricemia
- gout (sometimes called juvenile gout)
- Pissed off (hallmark feature = multination, aggression)
- retardation (ID)
- tonia (dystonic)

Question 35

Differentiate etiology of Duchenne and Becker muscular dystrophy

(a) Which is more severe?
(b) Age of onset

Answer 35

Both Duchenne and Becker are X linked mutations in dystrophin

• Duchennes is a frameshift mutation => truncated, nonfunctional protein
• Beckers is a non-frameshift mutation => partially functional dystrophin

(a) Duchennes is much more severe
(b) Duchennes comes on before age 5, Beckers onset in adolescence

Question 36

What part of the cell cycle are the following cells in

(a) Hepatocytes
(b) Bone marrow
(c) Neurons
(d) Skeletal and cardiac muscles
(e) Gut epithelium
(f) Hair follicles
(g) RBCs
(h) Lymphocytes
(i) Germ cells

Answer 36

Permanent cells (stuck in G0, only regenerate from stem cells) = neurons, skeletal and cardiac muscle, RBCs

Stable/quiescent cells (enter G1 from G0 when stimulated) = hepatocytes, lymphocytes

Labile (never enter G0, rapidly divide w/ short G1) = bone marrow, gut epithelium, hair follicles, germ cells
-most affected by chemotherapy

Question 37

Clinical picture of Kwashiokor

Answer 37

Skinny kid w/ huge abdomen: due to a protein deficiency MEAL

Malnutrition
Edema 2/2 loss of oncotic pressure
Anemia
Liver (fatty) b/c of reduced apolipoprotein production

Question 38

Differentiate the 4 kinds of blotting procedures

Answer 38

SNoW DRoP

Southern detects DNA
Northern detects RNA
Western detects proteins
Southwestern identifies DNA-binding proteins

Question 39

Fxn of proteasomes

(a) Possibly implicated in what disease process?

Answer 39

Proteasome = protein complex that degrades damaged or ubiquitin-tagged protein

(a) Defective proteasomes possibly implicated in Parkinsons

Question 40

Explain Prader-Willi syndrome

(a) Imprinting
(b) Where is the deletion?
(c) Clinical features
(d) 25% uniparental disomy of which parent?

Answer 40

Prader-Willi syndrome

(a) Imprinting = turning off of a gene. In Prader-Willi the maternal copy of the gene is imprinted (turned off), and the paternal copy is either mutated or deleted => disease
(b) Deletion is of the paternal allele
(c) Hyperphagia => obesity, intellectual disability, hypogonadism, hypotonia
(d) 25% cases due to maternal uniparental disomy- where both copies are from mom (so no active paternal copy => disease)

Question 41

Clinical features of hereditary hemorrhagic telangiectasia

Answer 41

Inherited BV disease => branching of skin lesions (telangiectasias)

• recurrent epistaxis (nose bleed), skin discolorations (easy bruising)
• AV malformations
• increased risk of GI bleed and hematuria

Question 42

Name the assumptions of the Hardy-Weinberg principles for population genetics

Answer 42

For populations in Hardy-Weinberg equilibrium: p2 + 2pq + q2 = 1, p + q = 1

Assumptions

• no mutations occur
• no net migration (nothing in or out)
• completely random mating
• natural selection is not occurring at this locus

Question 43

Chromosomal d/o of chrom 7

Answer 43

Chrom 7 = Williams syndrome (heart defect and abnormal facies)

Cystic fibrosis

Question 44

Thiamine

(a) Main fxn
(b) 3 syndromes that are consequence of deficiencyThiamine

Answer 44

Thiamine = B1

(a) Cofactor for enzymes needed to breakdown glucose
(b) Wernicke-Korsakoffs, wet and dry beriberi

Question 45

What is elastin?

(a) Locations
(b) What breaks down elastin?

Answer 45

Elastin = stretchy protein

(a) Lungs, skin, large arteries, stretchy ligaments, vocal cords
(b) Elastin is broken down by elastase, elastase constitually inhibited by alpha-1 antitrypsin

Question 46

Protein synthesis at ribosome

(a) Describe initiation
(b) Describe termination

Answer 46

Protein synthesis

(a) Initiation by GTP hydrolysis of tRNA, initiation factors assemble the 40S (small ribosomal subunit) w/ initiator tRNA
- then the IFs are released when the 60S binds

(b) Stop codon is recognized by release factors and ribosomal structure dissociates

Question 47

Explain the difference btwn phases of the cell cycle for permanent, stable, and labile cell types

Answer 47

• permanent cell types remain in G0 and will regenerate only from stem cells (not replicate itself)
• stable/quiescent cells are in G0 but can enter G1 when stimulated
• labile cells never go into G0, divide rapidly w/ a short G1 (most affected by chemotherapy)

Question 48

Fxn of the golgi apparatus

Answer 48

Golgi apparatus = traffics proteins and lipids from the ER to vesicles or the plasma membrane
-also does a lot of processing/adding components

Question 49

Function of RNA polymerase in prokaryotes

(a) Target of what drug?

Answer 49

RNA polymerase- one large multi-unit type in prokaryotes that functions to make all 3 types of RNA

(a) Target of rifampin

Question 50

What is the function of intracellular chaperone proteins?

Answer 50

Chaperone proteins facilitate and maintain protein folding

Question 51

Differentiate dry and wet beriberi

Answer 51

Both are from thiamine (B1) deficiency

Dry beriberi => abnormalities of peripheral nervous system
-polyneuritis, symmetric muscle wasting

Wet beriberi => high output cardiac failure (dilated cardiomyopathy) and capillary wall weakening causing edema

Question 52

What part of protein synthesis uses

(a) ATP
(b) GTP

Answer 52

Protein synthesis

(a) ATP used to ‘charge’ the tRNA, aka covalently bond amino acid to 3’ end of tRNA
- done by aminoacyl-tRNA synthetase

(b) GTP is the energy source for translocation of tRNA from A to P site of ribosome

Question 53

What kind of DNA mutation results in

(a) Sickle cell disease
(b) Duchenne’s muscular dystrophy

Answer 53

(a) SCD from missense mutation- one amino acid is altered

(b) DMD from frameshift mutation- addition or deletion that ruins 3 pairs => truncated nonfunctional protein

Question 54

Fxn of DNA polymerase I vs. DNA polymerase III

Answer 54

Both are only in prokaryotes.

DNA pol III elongates leading strand (adding to 3’ end) and elongates lagging strand. Has 3’ to 5’ exonuclease activity to proofread added nucleotides

DNA pol III degrades RNA primer to replace it w/ DNA

Question 55

Chromosomal d/o of chrom 3

Answer 55

Von-Hippel-Lindau disease (pheo, hemangioblastoma)

Renal cell carcinoma

Question 56

Kid who is extremely friendly w/ strangers, ‘elfin’ facies, ID, and hypercalcemia

Answer 56

Williams syndrome = microdeletion of chrom 7

Deleted region includes elastin gene => ‘elfin’ faces
Hypercalcemia 2/2 increased sensitivity to vit D

Question 57

Differentiate enhancer and promoter regions of a eukaryotic gene

Answer 57

Enhancer region = where transcription factors bind
-can be close, far, or even in intron region of gene

Promoter region = where RNA pol II binds

• TATA box
• close/just upstream from gene

Question 58

Nucleoside vs. nucleotide

Answer 58

Nucleoside = Base + sugar

Nucleotide = Base + sugar + phosphate

Question 59

2 fxns of the smooth ER

(a) Examples of cell types w/ tons of smooth ER

Answer 59

Smooth ER: production of steroids and dotox of chemicals/toxins

(a) Steroid producing cells of the adrenal cortex and gonads.
Detox cells of the liver (hepatocytes)

Question 60

Describe how impaired copper absorption can cause growth retardation and brittle, kinky hair

Answer 60

Copper is a necessary co-factor for enzyme used in collagen synthesis

Menkes disease = impaired Cu absorption => inability to crosslink collagen => brittle, kinky hair, growth retardation, and hypotonia

Question 61

Rough ER

(a) What is RER called in neurons?
(b) Name 2 types of cells where RER is especially abundant

Answer 61

Rough ER

(a) RER in neurons = Nissl bodies
(b) Cells that have high protein production/secretion
- mucus-secreting goblet cells in small intestines
- antibody producing plasma cells

Question 62

Differentiate the actions of fomeprizole and disulfram on ethanol metabolism

Answer 62

Rxn: Ethanol –> (alcohol dehydrogenase) –> Acetaldehyde –> (acetaldehyde dehydrogenase) –> Acetate

Acetaldehyde is the molecule that causes hangover symptoms

• Fomeprizole (used in EtOH toxicity) inhibits alcohol dehydrogenase to decrease acetaldehyde production
• Disulfram (= Antabuse) inhibits acetaldehyde dehydrogenase so acetaldehyde builds up => worse hangover = aversion therapy!

Question 63

Elastin activity in

(a) Marfan syndrome
(b) Emphysema

Answer 63

Elastin = stretchy protein in lungs, vocal cords, large arteries, skin

(a) Marfan = defect in glycoprotein (fibrillin) that forms a sheath around elastin
=> super stretchy skin and weak arteries (high risk of dissection)

(b) Emphysema = overactive elastase or can be caused early by alpha-1 antitrypsin

Question 64

Elastin activity in

(a) Marfan syndrome
(b) Emphysema

Answer 64

Elastin = stretchy protein in lungs, vocal cords, large arteries, skin

(a) Marfan = defect in glycoprotein (fibrillin) that forms a sheath around elastin
=> super stretchy skin and weak arteries (high risk of dissection)

(b) Emphysema = overactive elastase or can be caused early by alpha-1 antitrypsin

Question 65

Describe the enzyme terminology

(a) Kinase
(b) Phosphorylase
(c) Phosphatase
(d) Dehydrogenase
(e) Mutase

Answer 65

(a) Kinase: adds P+ using ATP
(b) Adds P+ onto substrate w/o using ATP
(c) Phosphatase- removes P+
(d) Dehydrogenase: catalyzes oxidation-reduction reactions
(e) Mutase: relocates a functional group w/in a molecule

Question 66

Chromosomal d/o of chrom 9

Answer 66

Friedreich ataxi

Question 67

Name the 5 features of 22q11 deletion syndromes

Answer 67

‘CATCH-22’, due to aberrant development of 3rd and 4th branchial pouches

Cleft palate
Abnormal facies
Thymic aplasia => T cell deficiency
Cardiac defects
Hypocalcema 2/2 parathyroid aplasia

=DiGeorge syndrome, velocardiofacial (palate, facial, cardiac) syndrome

Question 68

CF

(a) Location of mutation
(b) Explain physiology of thick mucus
(c) Newborn screening

Answer 68

Cystic fibrosis

(a) Chrom 7 = CFTR gene, MC F508D
(b) CFTR gene codes for ATP-dependent Cl- channel needed to secrete Cl- in lungs/gut and reasorb Cl- in sweat glands
- increase in intracellular Cl- which draws in salt and water => get abnormally thick mucus in lungs and GI tract
(c) Newborn screen using immunoreactive trypsinogen = pancreatic enzyme precursor elevated in CF babies regardless if pancreatic disease has developed yet

Question 69

CF drugs

(a) Which drug to loosen mucus
(b) Activity of DNA-ase

Answer 69

CF drugs

(a) NAC (N-acetylcystein)…yes the same one for acetaminophen overdose…used to loosen mucus
-works by cleaving the disulfide bone w/in mucus glycoproteins
(b) DNAase acts to clear leukocytic debris
=Dornase alfa (pulmozyme)

Question 70

2 syndromes that can be caused by a Robertsonian translocation

Answer 70

Downs (trisomy 21) and Patau (trisomy 13)

Robertsonian translocation = when the long arms of 2 acrocentric chromosomes (ones w/ centromere at the ends) fuse and the short arms are lost => chromosomal imbalance

Question 71

What is the function of the lac operon on prokaryotes?

Answer 71

Lac operon = lactose metabolism protein activated when preferred energy source (glucose) isn’t present to cause up-transcription of lactose metabolism proteins

Prokaryotic genes responding to environment

Question 72

Which type of single stranded DNA repair is defective in

(a) Xeroderma pigmentosum
(b) HNPCC

Answer 72

DNA repair

(a) Xeroderma pigmentosum- defective nucleotide excision repair
(b) HNPCC- defective mismatch repair

Question 73

Wernicke-Korsakoff

(a) Triad of clinical features
(b) Brain structure visibly damaged on imaging

Answer 73

Wernicke-Korsakoff

(a) Confusion, opthalmoplegia, ataxia
(b) Mammillary bodies

Question 74

Differentiate variable expressivity from incomplete penetrance

Answer 74

Variable expressivity: pt w/ same genotype have dif phenotypes
ex: Pts w/ NF1 having dif neurofibromas

Incomplete penetrance: some (but not all) w/ mutant genotype have mutant phenotype
ex: Not all pts w/ BRCA1 mutation develop breast/ovarian cancer

Question 75

Purine vs. pyrimidines

(a) Which bases
(b) Number of rings

Answer 75

Purines

(a) A, G
(b) 2 rings

Pyrimidines

(a) T, U, C
(b) 1 ring

Question 76

In which direction do the following occur

(a) DNA synthesis
(b) RNA synthesis
(c) mRNA translation
(d) Protein synthesis

Answer 76

Direction

(a,b) DNA and RNA synthesis occurs in 5’ to 3’ direction

• triphosphate bond on 5’ end provides the energy for the bond to be made, 3’ OH is what attacks the 5’ triphosphate bond
  (c) mRNA is translated from 3’ to 5’ in order to translate
  (d) proteins from N to C terminus

Question 77

Describe how RNA splicing is targeted in SLE

Answer 77

RNA splicing (removing introns and combining exons) done by snRNPs (small nuclear ribonuclear proteins) that form spliceosome

Anti-snRNP antibodies = anti-Smith = specific for SLE

Question 78

Do the following occur in the mitochondria or cytoplasm?

(a) FA synthesis
(b) FA oxidation
(c) cholesterol synthesis
(d) ketogenesis
(e) glycolysis

Answer 78

(a) FA synthesis in the cytosol
(b) Then FA oxidation in the mitochondria
(c) Cholesterol synthesis in cytosol
(d) Ketogenesis in mitochondria
(e) Glycolysis in cytosol

Question 79

Differentiate the types of proteins made in rough ER vs. free ribosomes

Answer 79

Rough ER makes proteins that are excreted from the cell or used at the plasma membrane

Proteins made in free ribosomes act in the cytosol or in organelles

Question 80

Anemia as a consequence of

(a) Vit E deficiency
(b) Vit B12 deficiency

Answer 80

Anemia in

a) VitE deficiency = hemolytic anemia
(b) B12 deficiency = megaloblastic anemia (large cells

Question 81

Chromosomal d/o of chrom 5

Answer 81

Cri-du-chat syndrome (microdeletion of chrom 5) => microcephay, ID, high pitched cry/mew

FAP (familial adenomatous polyposis)

Question 82

Histones

(a) What charge are histones?
(b) Activity on histones to inhibit transcription
(c) Activity on histones to stimulate transcription

Answer 82

Histones

(a) Positively charged to bind to negatively charged DNA
(b) Histone methylation works to inhibit transcription
(c) Histone acetylation acts to stimulate transcription

Question 83

When would you suspect uniparental disomy?

Answer 83

Uniparental disomy = both copies of one chromosome is from the same parent

Consider it when offspring manifests a recessive d/o w/ only one parent as a carrier

Question 84

Chromosomal d/o of chrom 4

Answer 84

ADPKD w/ PKD2 defect (ADPKD w/ DPK1 defect is chrom 16)

Huntington disease

Question 85

What is telomerase?

(a) Fxn
(b) Fxn in prokaryotes

Answer 85

Telomerase = RNA-dependent DNA polymerase (makes DNA off RNA code)

(a) Add DNA to the 3’ end of chromosomes to avoid loss of genetic material w/ every duplication
(b) None…only in eukaryotes

Question 86

MC mutation causing osteogenesis imperfecta

(a) 4 clinical features

Answer 86

Osteogenesis imperfecta = variety of genetic bone diseases, MC aut dom mutation causing reduced formation of otherwise normal type I collagen

(a) Type I collagen used in bone, dentin, skin, cornea
- multiple fractures
- blue sclera
- hearing loss (ossicles are abnormal)
- dental imperfections

Question 87

Chromosomal d/o of chrom 5

Answer 87

Cri-du-chat syndrome

FAP (familial adenomatous polyposis)

Question 88

Which lysosomal storage disease is not autosomal recessive?

Answer 88

All except Fabry disease are autosomal recessive

Fabry disease = X-linked recessive
While Gaucher (MC), Neimann-Pick, Tay-Sachs, Krabbe are autosomal recessive, Metachromatic Leukodystrophy

Question 89

Clinical features of Fabry disease

Answer 89

Fabry disease 2/2 lack of alpha-galactosidase A

First features: neuropathyic pain and hypohidrosis (lack of sweat)
Teenage: angiokeratomas and telangiectasias
Later: CV and renal

-highest risk renal failure

Question 90

Clinical features distinguishing Gaucher, Neimann Pick, and Tay-Sachs

Answer 90

Both Gaucher and Neimann Pick have hepatosplenomegaly
-no HSM in Tay Sachs

Cherry red spot on macula in Neimann PIck and Tay-Sachs

Question 91

Which lysosomal storage disease carries the highest risk of developing

(a) Renal failure
(b) Ataxia
(c) Optic atrophy

Answer 91

(a) Renal failure in Fabry disease (X-linked recessive)
(b) Ataxia seen in metachromatic leukodystrophy due to progressive demyelination
(c) Optic atrophy, seizures, developmental regression in Krabbe disease (galactocerebrosidase deficiency)

Question 92

Dihydrorhodamine flow cytometry reveals absence of green fluorescence characteristic of normal neutrophils

(a) Impaired activity of what enzyme?

Answer 92

DHR flow cytometry tests NADPH oxidase fxn of neutrophils

X-linked mutation in NADPH oxidase = impaired respiratory burst and oxidative killing = chronic granulomatous disease

Question 93

Bacteria w/o cell wall

Answer 93

Mycoplasma has no cell wall => doesn’t gram stain

Question 94

Limitations to gram stains, so use what other stain to visualize

(a) Treponema
(b) Mycobacteria
(c) Legionella
(d) Rickettsia
(e) Chlamydia

Answer 94

(a) Treponema (syphilis) w/ dark field microscopy
(b) Mycobacteria w/ acid fast
(c) Legionella w/ silver stain
-poor visualization b/c primary intracellular
(d,e) Rickettsia and chlamydia (pleomorphic bacteria): visualize w/ Giemsa

Question 95

3 things that stain w/ silver stain

Answer 95

Silver stain

1. Legionella
2. Fungi (ex: pneumocystis)
3. H. pylori

Question 96

What is visualized w/ Giemsa stain

Answer 96

Giemsa stain for

• 2 pleomorphic: chlamydia and rickettsia
• also plasmodium, borrelia, trypanosomes

Question 97

What is visualized by India ink stain?

Answer 97

Cryptococcus neoformans

Question 98

Agar to grow

(a) H. influenza
(b) Mycoplasma pneumonia
(c) E. Coli

Answer 98

Agar

(a) Chocolate agar (contains factor X hemaglutin and factor V FAD) grows H. influenza and Neisseria
(b) Mycoplasma grows on Eaton agar- b/c contains cholesterol!
- only bacteria w/ cholesterol in cell membrane
(c) E. Coli on EMB agar (eosin-methylene blue agar)

Question 99

Name some urease positive organisms

Answer 99

Urease positive organisms

• Nocardia
• Klebsiella
• H. Pylori
• Cryptococcus
• Proteus
• Strep epidermidis and Strep saprophyticus

Question 100

Explain why conjugate vaccines are ‘conjugated’

Answer 100

Conjugate vaccines for encapsulated organisms (neisseria meningitis, strep pneumo, H. influenza) meaning polysaccharide capsular antigen is conjugated w/ a protein to cause T-cell response

B/c polysaccharide alone won’t be presented to T cells => no T cell and therefore class switching

Question 101

Which bacteria produce the following color pigments

(a) Yellow
(b) Yellow ‘sulfur’ granules
(c) Red
(d) Blue-green

Answer 101

Pigments

(a) Yellow by staph aureus
(b) Yellow ‘sulfer’ granules (granules componse of filaments of bacteria) by actinomyces israelli
(c) Red by serratia
(d) Blue-green by pseudomonas

Question 102

4 bacteria w/ type III secretion system

Answer 102

Type III secretion system (injectisome): needle like protein appendage to facilitate direct delivery of toxin from gram negative bacteria into eukaryotic host

1. E. Coli
2. Salmonella
3. Shigella
4. Pseudomonas

Question 103

Explain mechanism of ADP ribosylating A-B toxin

Answer 103

B (binding) component binds to host cell surface receptor for endocytosis

then A (active) component attaches to ADP-ribosyl to disrupt host cell proteins

Most exotoxins (diphtheria, pseudomonas, shiga, cholera, pertussis)

Question 104

2 exotoxins that inactivate EF-2

Answer 104

1. Corynebacterium diptheriae’s diphtheria toxin inactivates elongation factor 2
2. Pseudomonas’s exotoxin A

Question 105

2 exotoxins that lyse cell membranes

Answer 105

1. Clostridium perfinges’ alpha toxin = lecithinase that degrades tissue and cell membranes => gas gangrene and double zone hemolysis
2. GAS streptolysin O degrades cell membranes

Question 106

2 bacterial species w/ superantigens that can cause shock

Answer 106

1. Staph aureus: TSST-1
2. Strep pyogenes (GAS): Exotoxin A

Bind to MHCII and TCR to cause overwhelming release of IL-1, IL-2, IFN-gamma, TNF-alpha

Question 107

2 bacteria toxins that are heat stable

Answer 107

All exotoxins except staph enterotoxin are destroyed rapidly over 60 C

While endotoxin (LPS) is crazy heat stable, stable at 100 C for 1 hr