flash cards micro

Question 1

Preserves morphology but not internal structures;

Pass slide over bunsen burner

Answer 1

Heat fixation

Question 2

What Structure gives rigid support and protects agains osmotic pressure?

Answer 2

Peptidoglycan

Question 3

Cell wall/Cell membrane found in which type of bacteria?

Answer 3

gram positive

Question 4

Major surface antigen of gram negative

Answer 4

Outer membrane - contains the endotoxin (lipopolysaccharide). Lipid A induces TNF and IL-1

Question 5

Composition of endotoxin

Answer 5

Lipopolysaccharide

Question 6

Site of oxidative and transport enzymes in bacteria

Answer 6

Plasma membrane

Question 7

Site of protein synthesis in bacteria

Answer 7

Ribosome (50S and 30S)

Question 8

Space between the cytoplasmic membrane and outer membrane in gram-negative bacteria:

Answer 8

Periplasm

Question 9

Where are beta-lactamases in bacteria?

Answer 9

In periplasm of gram negative bacteria

Question 10

Bacterial structure protects agains phagocytosis:

Answer 10

Capsule

Question 11

Mediates adherence of bacteria to cell surface. sex pilus forms attachment between 2 bacteria during conjugation.

Answer 11

Pilus/fimbria

Question 12

Composition of bacterial pilus/fimbria

Answer 12

Glycoprotein

Question 13

Provide resistance to dehydration, heat, and chemicals. Contain dipicolinic acid

Answer 13

Bacterial spores

Question 14

Keratin like coat that gives bacteria resistance to dehydration, heat, and chemicals.

Answer 14

Dipicolinic acid of SPORES

Question 15

Contains a variety of genes for antibiotic resistance, enzymes, and toxins

Answer 15

Bacterial Plasmid (made of DNA)

Question 16

Mediates adherence to surfaces, especially foreign surfaces (eg: indwelling catheters)

Answer 16

Glycocalyx

Question 17

Allow some organisms to colonize mucosal surfaces

Answer 17

IgA proteases

S.pneumo, N.meningitidis, N.gonorrhoeae, H.influenza

Question 18

Used to directly see if an organism is present within a patient.

Answer 18

Direct Fluorescant Antibody Test

Question 19

Used to see if patient has antibodies agains a certain pathogen.

Answer 19

Indirect Fluorescant Antibody Test

Question 20

Structures within bacterial cell walls that are common to both gram positive and gram negative bacteria.

Answer 20

Flagellum, Pilus, Capsule, Peptidoglycan, Cytoplasmic membrane

Question 21

Structures in cell wall unique to gram positive organisms.

Answer 21

Teichoic acid

Cell wall

Question 22

Structures in cell wall unique to gram negative organisms

Answer 22

Endotoxin/LPS (outer membrane)

Periplasm

Question 23

Is too thin to be visualized using traditional gram stain. Use darkfield microscopy and fluorescent antibody staining

Answer 23

Stain for Treponema

Question 24

Is an Intracellular parasite - so does NOT stain well.

Answer 24

Stain for Rickettsia

Question 25

Is primarily intracellular so does NOT gram stain well. Need silver stain.

Answer 25

Stain for Legionella pneumophilia

Question 26

Is an intracellular parasite so does NOT gram stain well. Also Lacks muramic acid in cell wall

Answer 26

Stain for Chlamydia

Question 27

Phase of bacterial growth curve where there is metabolic activity without division.

Answer 27

Lag Phase

Question 28

Phases of Bacterial growth curve

Answer 28

Phases:

1) Lag phase
2) Log phase
3) Stationary phase
4) Death phase

Question 29

Phase of the bacterial growth curve where there is Rapid cell division.

Answer 29

Log phase

Question 30

Phase of the bacterial growth curve where Nutrient depletion slows growth.

Answer 30

Stationary phase

Question 31

Phase of the bacterial growth curve where there is prolonged nutrient depletion and buildup of waste products lead to death.

Answer 31

Death phase

Question 32

Chemical composition of exotoxins.

Answer 32

Polypeptides

Question 33

Location of genes for endotoxins.

Answer 33

Bacterial chromosome

Question 34

Location of genes for exotoxins

Answer 34

Plasmid or bacteriophage

Question 35

Induces high-titer antibodies called antitoxins.

Answer 35

Exotoxins

Question 36

Poorly antigenic

Answer 36

Endotoxin

Question 37

Typical diseases caused by exotoxins.

Answer 37

Tetanus, Botulism, Diphtheria

Question 38

Typical diseases caused by endotoxins

Answer 38

Meningococcemia, sepsis by gram negative rods

Question 39

Bind directly to MHC II and T-cell receptor, activating large number of T cells to stimulate release of IFN-gamma, and IL-2.

Answer 39

Superantigens

S.aureus, S.pyogenes

Question 40

Component attaches an ADP-ribosyl to a host cell protein (ADP ribosylation) altering protein function.

Answer 40

A component of AB toxin

Question 41

5 Organisms that secretes ADP ribosylating Toxins.

Answer 41

1) Corynebacterium diphtheriae
2) Vibrio cholerae
3) E.coli
4) Pseudomonas
5) Bordetella pertussis

Question 42

Toxins that inactivate EF-2

Answer 42

Corynebacterium diphtheriae

Pseudomonas (exotoxin A)

Question 43

Inactivates elongation facto (EF-2) causing pharyngitis and “pseudomembrane” in throat.

Answer 43

Corynebacterium diphtheriae

Question 44

ADP ribosylation of G protein stimulates adenylyl cyclase; increasing pumping of Cl- H20 into gut.

Answer 44

Vibrio cholerae

Question 45

toxin stimulates Adenylate Cyclase

Answer 45

Heat labile

Question 46

toxin stimulates guanylate cyclase

Answer 46

Heat stable

Question 47

Stimulates adenylate cyclase; causes whooping cough; inhibits chemokine receptor causing lymphocytosis.

Answer 47

Bordetella pertussis

Question 48

NT inhibited by C. tetani that causes lockjaw.

Answer 48

Glycine

Question 49

NT inhibited by botulinum that causes CNS paralysis.

Answer 49

Acetylcholine

Question 50

Produced by Shigella and also E.coli O157:H7. Cleaves host cell rRNA and enhances cytokine release causing HUS.

Answer 50

Shiga toxin

Question 51

Lipopolysaccharide found in cell wall of gram negative bacteria that Activate macrophages (IL-1, TNF, NO), Activate Complement (C3a, C5a), Activate Hageman factor (causing coagulation cascade which can lead to DIC).

Answer 51

Endotoxin

Question 52

Fermentation Patterns of Neisseria

Answer 52

MeninGococci ferment Maltose and Glucose

Gonocci ferment Glucose

Question 53

Gram +, Cocci, Clusters, Catalase +, Coagulase +

Answer 53

S.aureus

Question 54

Gram +, Cocci, Clusters, Catalase +, Coagulase -, Novobiocin Sensitive

Answer 54

S.epidermidis (SEnsitive = S.Epidermis)

Question 55

Gram +, Cocci, Clusters, Catalase +, Coagulase -, Novobiocin resistant

Answer 55

S.saprophyticus (Resistant = Strong = Saphrophyticus)

Question 56

Gram +, Cocci, Chains, Catalase -, Alpha (green) hemolysis, Capsule, Optochin sensitive, Bile soluble

Answer 56

S.pneumoniae

Question 57

Gram +, Cocci, Chains, Catalase -, Alpha (green) hemolysis, No capsule, Optochin resistant, Not bile soluble

Answer 57

Viridans streptococci (S.mutans)

Question 58

Alpha (green) hemolytic streptococci

Answer 58

S. pneumoniae: Capsule, +Quelling, Optochin sensitive, Bile soluble

S. mutans (viridans): No capsule, Optochin resistant, not bile soluble

Question 59

Gram +, Cocci, Chains, Catalase -, Beta (clear) hemolysis, Bacitracin sensitive

Answer 59

Group A Strep (S.pyogenes): Bacitracin sensitive

Question 60

Gram +, Cocci, Chains, Catalase -, Beta (clear) hemolysis, Bacitracin resistant

Answer 60

Group B Strep (S.agalactiae): Bacitracin resistant

Question 61

Gram +, Cocci, Chains, Catalase -, Gamma (no) hemolysis

Answer 61

Enterococcus (E.faecalis and Peptostreptococcus)

Question 62

Gram -, Cocci, Maltose fermenter

Answer 62

N. meningitidis

Question 63

Gram -, Cocci, Maltose non-fermenter

Answer 63

N. gonorrhoeae

Question 64

Uses Chocolate agar with factors V (NAD) and X (hematin).

Answer 64

H.influenza

Question 65

Uses Bordet-Gengou (potato) agar.

Answer 65

B. pertussis

Question 66

Bacterial Genetics: Direct cell-to-cell transfer

Answer 66

Conjugation

Question 67

Culture that can be used for C. diphtheriae

Answer 67

Tellurite plate
Loffler’s medium
Blood agar

Question 68

Bacterial genetics: Phage-mediated cell to cell DNA transfer.

Answer 68

Transduction

Question 69

Bacterial Genetics: Purified DNA taken up by a cell.

Answer 69

Transformation

Question 70

Bacterial Genetics: DNA transfer to same or another chromosome or plasmid within a cell.

Answer 70

Transposition

Question 71

Nature of DNA transferred in Transposition

Answer 71

DNA sequences “jumping genes”

Question 72

What part of lungs is Mycobacterium TB found?

Answer 72

Apices of the lung (b/c it is an obligate aerobe, and the apices of the lung have the highest PO2)

Question 73

Which organisms lack catalase and/or superoxide dismutase?

Answer 73

Obligate anaerobes

Question 74

Alpha-hemolytic bacteria

Answer 74

1. Streptococcus pneumoniae (catalase -, optochin sensitive)
2. Viridans streptococci (catalse -, optochin resistant)

Question 75

Beta-hemolytic bacteria

Answer 75

1. Staphylococcus aureus (catalase/coagulase +)
2. Streptococcus pyogenes (catalase -, bacitracin sensitive)
3. Steptococcus agalactiae (catalase -, bacitracin resistant)
4. Listeria monocytogenes (tumbling motility, meningitis newborns, unpasteurized milk)

Question 76

Degrades H202, an antimicrobial product of PMNs. H202 is a substrate for myeloperoxidase.

Answer 76

Catalase

Question 77

virulence factor that binds Fc-IgG, inhibiting complement fixation and phagocytosis

Answer 77

Protein A

Question 78

Due to exfoliative toxin (s.aureus)

Answer 78

Scalded skin syndrome

Question 79

Alpha-toxin of Clostridium perfringens

Answer 79

Lecithinase

Question 80

The only bacterium with a protein capsule.

Answer 80

Bacillus anthracis

Question 81

Inhalation of Anthrax spores from contaminated wool.

Answer 81

Wollsorter’s disease

Question 82

Gram-positive, weakly acid fast aerobe in soil causing pulmonary infection in ICH

Answer 82

Nocardia asteroides

Question 83

Causes meningococcemia and meningitis. Waterhouse-Friderichsen syndrome

Answer 83

N.meningitidis

Lipooligosaccharide endotoxin

Question 84

Most invasive type of H.influenza

Answer 84

Capsular type B (Vaccine contains type B capsular polysaccharide conjugated to diphtheria toxoid or other protein)

Question 85

Given between 2 and 18 months. Contains type B polysaccharide conjugated to diptheria toxoid or other protein

Answer 85

H.influenza vaccine

Question 86

Polysaccharide of endotoxin, found in enterobacteriaceae

Answer 86

Somatic O antigen

Question 87

The 3A’s of Klebsiella

Answer 87

Aspiration pneumonia
Abscess in lungs
Alcoholics

Question 88

Symptoms of what bacterium can be prolonged with antibiotic treatment.

Answer 88

Salmonella

Question 89

What bacterium is commonly transmitted from pet feces (puppies), contaminated milk, or pork?

Answer 89

Yersinia enterocolitica. (outbreaks are very common in day-care centers)

*can mimic Crohn’s disease or appendicitis

Question 90

Etiologic agent of food poisoning from reheated rice.

Answer 90

Bacillus cereus

Question 91

Etiologic agent of Food poisoning from meats, mayonnaise, custard.

Answer 91

Staph aureus

Question 92

Etiologic agent of food poisoning from reheated meat dishes.

Answer 92

Clostridium perfringens

Question 93

Etiologic agent of food poisoningdue to improperly canned foods (bulging cans).

Answer 93

Clostridium botulinum

Question 94

Etiologic agent of food poisoning from undercooked meat (cheeseburger).

Answer 94

E.coli 0157:H7

Question 95

Etiologic agent of food poisoning from poultry, meat, and eggs.

Answer 95

Salmonella

Question 96

Bloody diarrhea from a comma- or S-shaped organism growing at 42C and oxidase positive.

Answer 96

Campylobacter

Question 97

Bloody diarrhea from gram -, motile, lactose negative bacteria.

Answer 97

Salmonella

Question 98

Gram -, non-motile, lactose negative, low ID50 organism causing bloody diarrhea.

Answer 98

Shigella

Question 99

Shiga-like toxin

Answer 99

Enterohemorrhagic E.coli (bloody diarrhea)

Question 100

Organism causing bloody diarrhea. Picked up at daycare. Presents as pseudoappendicitis

Answer 100

Yersinia enterocolitica

Question 101

Bloody diarrhea after clindamycin administration

Answer 101

C.difficile (pseudomembranous colitis)

Question 102

Stain for Legionella pneumophilia

Answer 102

Silver stain. (Think of a French leegionnaire (soldier) with his silver helmet, sitting around a campfire (charcoal) with his iron dagger - he is no sissy (cysteine)

Question 103

DOC for Legionnaires’ disease

Answer 103

Erythromycin

Question 104

Aerobic gram-negative rod. Non-lactose fermenting. Oxidase +

Answer 104

Pseudomonas aeruginosa

Question 105

Produces both an endotoxin and exotoxin A.

Answer 105

Pseudomonas
Endotoxin (fever, shock). Exotoxin A (inactivates EF-2)

Question 106

Txt of Pseudomonas aeruginosa

Answer 106

Aminoglycoside plus extended-spectrum penicillin (eg: piperacillin and ticarcillin)

Question 107

A blue-green pigment produced by Pseudomonas aeruginosa.

Answer 107

Pyocyanin

Question 108

Primary TB localizes usually in lower lobes. Also affects the hilar nodes.

Answer 108

Ghon complex

Question 109

Usually in apex of lung. Causes a fibrocaseous cavitary lesion. Caused by reinfection.

Answer 109

Secondary TB infection

Question 110

PPD is what type of hypersensitivity

Answer 110

Type IV

Question 111

Chronic disease with hypopigmented skin and loss of sensation that prefers cooler areas of skin.

Answer 111

Hanson’s disease (leprosy)

Question 112

Gram -, obligate intracellular organisms that infect vascular endothelium

Answer 112

Rickettsiae

DOC: Tetracycline

Question 113

Classic Triad of Rickettsiae

Answer 113

Headache, fever, rash

Question 114

Small, non-motile, obligate intracellular (need ATP/NAD from host) bacteria/parasites that cause mucosal infections

Answer 114

Chlamydiae

Question 115

Two forms of Chlamydiae

Answer 115

1. Elementary body (small and dense) which Enters cell via Endocytosis.
   2) Initial or Reticulate body, which Replicates in cell by fusion

Question 116

Reactive arthritis, conjunctivitis, and nongonococcal urethritis

Answer 116

Chlamydia trachomatis

Question 117

What type of hypersensitivity is caused by Chlamydia salpingitis?

Answer 117

Type IV hypersensitivity

TH1 lymphocyte response

Question 118

Erythema chronicum migrans

Answer 118

Lyme disease

3 stages:

1) Erythema chronicum migrans, flulike sx
2) Neurologic and cardia manifestations
3) autoimmune migratory polyarthritis

Manifestations: Bell’s palsy, Arthritis, Kardiac block, Erythema chronicum migrans

DOC: Tetracycline, Doxycycline, or penicillins

Question 119

Broad based ataxia, positive Romberg, Charcot joints, stroke w/o hypertension

Answer 119

Neurosyphilis (tabes dorsalis)

Question 120

Budding yeast with pseudohyphae in culture at 20C; germ tube formation at 37C

Answer 120

Candida albicans

DOC:
Nystatin for superficial infections
Amphotericin B for serious systemic infection