Gram Negative Bacteria

Question 1

Describe the structure of a G- bacteria.

Answer 1

It has an inner membrane with proteins, a periplasm with lipoproteins and a peptidoglycan cell wall, and an outer membrane with proteins, LPS and porins

Question 2

What are the four components of LPS from out to in?

Answer 2

1. O-antigen made of repeating sugars
2. Outer core with heptose, glucose, galactose
3. Inner core with heptose and KDO
4. Lipid A which confers virulence

Question 3

Gram negative rods can be divided into two major groups. What are they?

Answer 3

Fermenters and non-fermenters

Question 4

Are enterobacteriacae fermenters or non-fermenters? What strains of bacteria fall in this category?

Answer 4

They are gram negative rods that are fermenters.

Enterobacteriacae are vibrio and aeromonas

Question 5

What bacteria are gram negative rod fermenters that are lactose fermenters? Which are fast and which are slow?

Answer 5

1. E. coli- fast
2. Klebsiella-fast
3. Enterobacter-fast
4. citrobacter-slow
5. serratia-slow

Question 6

What are gram negative fermenters that cannot ferment lactose? (only other sugars)

Answer 6

Salmonella
shigella
proteus
yersinia

Question 7

Which gram negative rods are non-fermenters?

Answer 7

1. pseudomonas aeruginosa
2. acinetobacter
3. Xanthomanas
4. Strenotrophomonas
5. Burkholderia
6. Helicobacter
7. Campylobacter

Question 8

What are examples of gram negative cocci that ferment maltose and glucose?

Answer 8

Niesseria menigitidis

Question 9

What are examples of gram negative cocci that do not ferment maltose, but can ferment glucose?

Answer 9

Niesseria gonorrheae

Question 10

Gram negative cocci are all strongly ______ positive.

Answer 10

oxidase

Question 11

Gram negative coccobacillary _____________ oxidase positive.

Answer 11

+/-

Question 12

What are examples of coccobacillary gram negatives?

Answer 12

1. Haemophilus influenza- cofactors
2. Bordatella pertussis- special media
3. moraxella catarrhalis
4. brucella abortus
5. pasteurella multocida

Question 13

Lactose fermenting ____________ can be differentiated from non-lactose fermenting ________________.

Answer 13

Lactose= E. coli
Non-lactose = Salmonella

Question 14

What agar would be used to isolate gram negative bacteria?

Answer 14

MacConkey’s because crystal violet and bile restrict the growth of gram positives

Question 15

What agar is used to isolate gram positives?

Answer 15

Colistin (nalidixic acid) because it binds LPS to inhibit growth of gram negatives

Question 16

Describe the oxidase test.

Answer 16

It is used to see if a bacteria can produce cytochrome c oxidase (showing it uses an electron transport chain – aerobic)
If something is oxidase positive, it will convert colorless solution to purple

Question 17

Describe Enterobacteriaceae:

1. gram stain and shape
2. oxygen usage
3. spore capability
4. catalase + or -
5. Fermentation ability
6. motility/type of flagella

Answer 17

1. Gram negative rod
2. facultative anaerobe
3. can NOT form spores
4. Catalase +
5. ferments glucose and others
6. motile with peritrichous flagella

Question 18

What is the most common enterobacteriaceae?

Answer 18

E. coli

Question 19

Where is the reservoir for E. coli?

Answer 19

GI tract and they are commensal

Question 20

What are the three most common syndromes associated with E. coli?

Answer 20

1. Diarrhea
2. UTI
3. neonatal sepsis and meningitis

Question 21

What is the number one cause of UTI?

Answer 21

E. coli

Question 22

What pili are associated with the attachment of E. coli?

Answer 22

1. Type 1 pillin

2. P fimbrae

Question 23

For E. coli, certain ____ and _____ antigens correlate to disease

Answer 23

O (LPS) and K (capsular)

Question 24

What antigen of E. coli is responsible for the vast majority of neonatal sepsis?

Answer 24

K1 capsular antigen

Question 25

The KI capsular antigen of E. coli resembles the structure of ___________________________ because of the sailic acid.

Answer 25

group B streptcoccus capsule

Question 26

What are the three major toxins associated with diarrheal syndromes of E. coli?

Answer 26

1. Heat-labile toxin (plasmid)
2. Heat-stable toxin (plasmid)
3. Shiga-like toxin (lysogenic prophage)

Question 27

Describe the heat-labile toxin of E. coli. What does it cause?

Answer 27

It is an A-B toxin (like cholera) that activates adenylate cyclase.
It causes traveler’s diarrhea

Question 28

Describe the heat-stable toxin of E. coli What does it cause?

Answer 28

It is an AB toxin that activates guanylate cyclase and causes diarrhea

Question 29

Describe the shiga-like toxin of E. coli.

What is the major example?

Answer 29

It is a lysogenic prophage that acts as an enterotoxin causing fluid secretion

Prime example: O157:H7

Question 30

Describe Vibrio spp:

1. gram stain
2. motility (what kind of flagella)

Answer 30

1. They are curved gram negative rods

2. sIngle Polar flagella

Question 31

What is the habitat of Vibrio spp?

Answer 31

Aqueous environments

oceans, brackish water, eating shellfish, fecal-oral spread

Question 32

What are the three most notable kinds of vibrio spp?

Answer 32

1. Vibrio cholera
2. Vibrio parahaemolyticus
3. Vibrio vulinficus

Question 33

What type of toxin is associated with vibrio cholera?

Answer 33

AB toxin that is a lysogenic prophage. It increases cAMP in the host causing secretory diarrhea (20L/day–> dehydration/death)

Question 34

What serotypes of O antigen are associated with vibrio cholera?

Answer 34

O1 and O139

Question 35

What disease is caused by vibrio parahaemolyticus?

Answer 35

gastroenteritis- cramping, abdominal pain, nausea, vomiting, fever, bloody diarrhea

Question 36

What disease is associated with vibrio vulnificus? How do you acquire this infection?

Answer 36

1. Soft tissue infection and sepsis
2. liver disease

You get V. vulnificus from eating raw oysters

Question 37

Describe Helicobacter pylori:

1. gram stain and shape
2. oxygen consumption

Answer 37

They are gram negative rods with a curved shape.
They are motile
Microaerophiles

Question 38

What do helicobacter pylori utilize for energy?

Answer 38

Amino acids.

they utilize a urease to break urea into ammonium and carbon dioxide

Question 39

Where do helicobacter pylori reside?

Answer 39

In the stomach and duodenum

Question 40

What disease do helicobacter pylori cause?

Answer 40

Peptic ulcers that can lead to:
Malignant carcinoma
MALT lymphoma (cured by antibiotics)

Question 41

What is unique about the growth of C. jejuni and other campylobacter?

Answer 41

They grow best at 42 degrees celcius

Question 42

Describe the shape, gram stain and motility of Campylobacter.

Answer 42

They are GNR that are curved and motile

Question 43

What is the reservoir for campylobacter?

Answer 43

Birds

Question 44

What bacteria contaminates most chickens in the US?

Answer 44

Campylobacter

Question 45

What disease presentation is associated with campylobacter?

Answer 45

Febrile, bloody diarrhea

Question 46

Describe Pseudomonas aeruginosa:

1. gram stain and shape
2. Motility
3. oxygen consumption

Answer 46

1. GNR
2. motile with polar flagella
3. aerobic- (non-fermentor, oxidase +)

Question 47

Pseudomonas aeroginosa is an aerobic GNR. This means that is will test ________ positive and will be a ______________.

Answer 47

It will test oxidase positive and will be a non-fermentor

Question 48

What is unique about the growth of pseudomonas aeroginosa?

Answer 48

It has a fruity smell in culture and has pigments:

Pyocyanin and pyoverdin

Question 49

What is the reservoir for pseudomonas aeruginosa?

Answer 49

Soil and water organisms (ubiquitous)

Question 50

What virulence factor is associated with pseudomonas aeruginosa?

Answer 50

It can form biofilm

Question 51

What diseases are associated with pseudomonas aeruginosa?

Answer 51

1. Nosocomial pneumonia associated with ventilators
2. Burn patients
3. cystic fibrosis

Question 52

What is the gram stain and shape of pasteurella mutlocida?

Answer 52

It is a gram negative coccobacillary that is small and non-motile

Question 53

What is the reservoir of pasteurella mutlocida?

Answer 53

It lives in the mouths of cats and dogs so it can cause infection after a bite

Question 54

Describe the gram staining and shape of francisella?

Answer 54

GNR that is small and non-motile

Question 55

What region of the country has francisella?

Answer 55

Tulare county in CA is where it was found, but it is now seen most in the midwest (oklahoma especially)

Question 56

What disease is associated with francisella?

How is the infection acquired?

Answer 56

It is a zoonotic infection that causes “rabbit fever” and is acquired via puncture through skin or inhalation

Question 57

What is the gram staining and oxygen consumption of legionella pneumophila?

Answer 57

It is a GNR that is aerobic and requires fastidious nutrition on culture

Question 58

What is the reservoir for legionella?

Answer 58

It is ubiquitous in water and has adapted to parasitize free living amoeba

Question 59

What specific cell is legionella an intracellular pathogen to?

Answer 59

Macrophages where they inhibit phagolysosomal fusion, acidification and respiratory burst

Question 60

What disease is caused by legionella infection?

Answer 60

Community acquired pneumonia

Question 61

Describe Neisseria:

1. gram staining
2. shape
3. oxygen consumption
4. fastidious growth

Answer 61

1. GN cocci
2. diplococci
3. aerobic- (oxidase +, non-fermentor)
4. requires excess CO2 to grow in lab

Question 62

What agar would you use to grow Neisseria gonorrhea and Neisseria meningitidis?

Answer 62

Chocolate agar- blood agar that has been heated to release internal contents of RBC

Thayer-Martin from nonsterile sites

Question 63

What is the reservoir of N. meningitidis?

Answer 63

nasopharynx of humans

Question 64

What is the most common cause of sporadic bacterial meningitis in young adults (20-30)?

Answer 64

N. meningitidis

Question 65

Where are epidemics of N. meningitidis likely to occur?

Answer 65

Highly crowded areas like dorms, prisons, military barracks

Question 66

What is the main virulence factor of N. menigitidis?

Answer 66

It has a capsule to allow it to be antiphagocytic

Question 67

How many serotypes does the N. meningitidis capsule have? What serotypes cause disease?

Which serotypes are there vaccines for?

Answer 67

There are 13 serotypes and A B C Y and W135 cause disease

There are vaccines for A C Y and W135 (NOT B)

Question 68

What is the reservoir for N. gonorrhea?

Answer 68

humans- common STD

Question 69

What are the 2 virulence factors associated with N. gonorrhea?

Answer 69

1. Pilin for attachment (with phase variation)

2. IgA protease to avoid immune detection

Question 70

How do neisseria (both gonorrhea and meningitidis) avoid immune detection?

Answer 70

They have IgA protease

Question 71

What is the most common presentation of N. gonorrhea?

Answer 71

1. Urethritis- drip/clap where there is milky white discharge and burning dysuria
2. prostatitis and orchitis in men
3. cervicictis and salpingitis (PID) in women

Question 72

If gonorrhea disseminates beyond genitalia, what can it cause?

Answer 72

Dermatitis-arthritis syndrome

Question 73

There are many other Neisseria besides gonorrhea and meningitidis.
They are all __________ positive
They differ in what four ways?

Answer 73

They are all oxidase positive
They differ in :
1. sugar use
2. growth in CO2
3. pigment production 
4. capsular formation

Question 74

What two enzymes do anaerobes lack that do not allow them to detoxify oxygen biproducts?

Answer 74

1. superoxide dismutase

2. catalase

Question 75

Anaerobes are the predominant species in what four body regions?

Answer 75

1. mouth
2. GI tract
3. GU tract
4. Skin appendages (hair follicles and sweat glands)

Question 76

Mouth flora is a mixture of _______ and ________/

Answer 76

viridans streptococci and anaerobes

Question 77

Anaerobes comprise what percent of the colonic flora?

Answer 77

99.99%

Question 78

What diseases are caused by anaerobes in the mouth?

Answer 78

1. Peridontal disease
2. Oral and pharyngeal absess
3. Lung absess

Question 79

What diseases are caused by anaerobes in the GI tract?

Answer 79

intraabdominal abscesses

Question 80

What diseases are caused by anaerobic bacteria in the GU tract?

Answer 80

Pelvic inflammatory disease and tubo-ovarian abscesses

Question 81

What are the 5 main anaerobes that infect the head and neck?

Answer 81

1. bacteroides
2. fusobacterium
3. porphyromonas
4. prevotella
5. veillonella

Question 82

What are the 2 main anaerobes that cause intraabdominal abscesses and gynecologic problems?

Answer 82

1. bacteroides

2. prevotella