Med Micro

Question 0

What has genomics revealed in bacteriology

Answer 0

Unexpected diversity of genome organization and content between strains

Question 1

What differentiates pathogens from non pathogens

Answer 1

Virulence factors - either cause damage of help pathogen survive in host

Question 2

Define host genome

Answer 2

The entire genetic complement that was obtained by vertical transmission

Question 3

What is a microbiome

Answer 3

Interacting group of organisms that share an ecological niche

Question 4

Define core genome

Answer 4

All the genes that each member of a species possesses

Question 5

What are distributed genes

Answer 5

Genes in a species that are not shared by all strains of that species

Question 6

What is a supragenome

Answer 6

All core genes plus distributed genes of a species

Question 7

Basic tenets of damage response framework

Answer 7

Pathogenesis is outcome of host - organism interaction
Host-relevant outcome is determined by damage to host
Host damage can result from damage from microbe of by host itself

Question 8

Limitations of AST

Answer 8

Site of infection
Blood supply to site
IR of pt
Pharmacokinetics
Comorbidities
Demographics of pt

Question 9

Three categories of Kirby Bauer system

Answer 9

Susceptible
Intermediate
Resistant

Question 10

Define MIC

Answer 10

Lowest concentration of Abx that results in inhibition of visible growth

Question 11

Define MBC

Answer 11

Minimum bacterocidal concentration

Lowest [] needed to kill 99.9% of original inoculum in a given period of time

Question 12

Technical factors that could influence size of zone of inhibition

Answer 12

Inoculum density 
Timing of disk application
Temp of incubation
Incubation time
Size of plate, depth of agar, spacing of disks
Potency of Abx disk
Composition of medium

Question 13

How to determine MIC

Answer 13

Liquid/broth MIC determination

Etest

Question 14

Types of resistance

Answer 14

Natural - wild type, all strains in species have it etc

Acquired - development of one or more resistance mechanisms to Abx that wild type is susceptible

Question 15

Mechanisms for acquired resistance

Answer 15

Mutations

Transfer of DNA (plasmid or transposon)

Question 16

Mode of transmission for resistant genes

Answer 16

Transformation - DNA enters cell and exchanges some DNA with host
Transduction - bacteriophage with host DNA infects cell and DNA is incorporated into new host.
Conjugation - transfer of plasmid or small DNA fragment via pilus

Question 17

Define cross resistance

Answer 17

A single mechanism confers resistance against several members of the same Abx class

Question 18

Define associated resistance

Answer 18

Two different mechanisms in the same bacterium confer resistance to two different families of Abx

Question 19

Key mechanisms of Abx resistance

Answer 19

Modification of Abx (eg enzymes)
Alteration of target site
Reduced intracellular concentration
Bypass mechanisms

Question 20

Egs of modification of Abx

Answer 20

Aminoglycaside-modifying enzymes
B-lactamases
Chloramphenicol acetylase

Question 21

Efficacy of B-lactamases depends on what factors

Answer 21

Rapidity of drug entry
Rate of enzymatic hydrolysis
Amount of enzyme produced
Outer membrane

Question 22

What can cause reduced intracellular concentration

Answer 22

Active efflux pumps
Porins
Impermeable membrane

Question 23

Egs of target site modification

Answer 23

PBPs
Ribosomes
DNA gyrase

Question 24

Three classes os B-lactamases

Answer 24

Penicillinases
Cephalosporinases
Carbapenemases

Question 25

How does one identify high risk for carbapenem resistance

Answer 25

Recent Abx exposure
Prolonged hospital exposure
Invasive devices

Question 26

What do carbapenems cover

Answer 26

GNB incl ESBL-producers
GPB incl MSSA
Anaerobes

Question 27

Factors limiting drug efficacy

Answer 27

Genetic drug resistance (conjugation, transformation, transduction, de novo)
Intrinsic drug resistance (efflux, permeability, enzymes)
Phenotypic drug tolerance (biphasic kill - persisters)

Question 28

Define resistance

Answer 28

Genetic, heritable, specific factors that can usually be detected at a molecular level and can be countered by combination therapy.

Question 29

Define tolerance

Answer 29

(Partially genetic) non-heritable, non-specific phenomenon with multiple redundant pathways. Tolerant persisters arise even in the presence of combination therapy

Question 30

How does one identify high risk for carbapenem resistance

Answer 30

Recent Abx exposure
Prolonged hospital exposure
Invasive devices

Question 31

What do carbapenems cover

Answer 31

GNB incl ESBL-producers
GPB incl MSSA
Anaerobes

Question 32

Gut microbiotica influenced by..

Answer 32

Genetics 
Age
Geography
Dietary
Preterm delivery
Mode of delivery
Abx use

Question 33

Performance criteria of typing methods

Answer 33

Stability, typeability, reproducibility, discriminatory power, epidemiological concordance.
Flexible, rapid, easy.

Question 34

Phases of bacterial growth

Answer 34

Lag
Log
Declining
Stationary 
Death

Question 35

What contributes to pathogenicity

Answer 35

Transmissibility
Survival
Infectivity

Question 36

Virulence factors

Answer 36

Cell wall
Toxins (endo, exo)
Enzymes (coagulases, kinases, hyaluronidase, collagenase)

Question 37

Bacterial mechanisms of host evasion

Answer 37

Adherence
Capsule (impairs phagocytosis)
Biofilms
Ag variation
Resistance to phagocyte lysosomes killing
IgA proteases

Question 38

Abx that inhibit cell wall synthesis

Answer 38

B lactams
Glycopeptides
Fosphomycin

Question 39

Abx that act on protein synthesis

Answer 39

Aminoglycasides
Tetracyclines
MLS (macrolides, lincosamides, streptogramins)
Quinolones 
Sulphinamides and trimethoprim

Question 40

Lab detection methods of cabapenemases

Answer 40

Modified hodge test
Effects of inhibitors result in synergy
Nordmann-poirel test

PCR
rtPCR
Molecular beacons

Question 41

Clinical management of patient w carbapenemase infection

Answer 41

Abx (colistin, tigecycline)
Remove source
Infection control
Isolate

Question 42

Mi biome analysis methods

Answer 42

16S RNA sequencing

Total micro biome DNA sequencing

Question 43

Rx strategies for diseases caused by change in micro biome

Answer 43

Nutrition change
Fecal transplantation
Microbial supplementation (probiotics)

Question 44

Diseases associated w change in microbiome

Answer 44

Resp disease
Obesity
Cirrhosis 
Autoimmunity
Kwashiorkor 
IBD
Chron's
Clon cancer

Question 45

Phenotypic methods for microbial typing

Answer 45

Serotyping
Mass spectrometry
Multi locus enzyme electrophoresis

Question 46

Genotypic methods for microbial typing

Answer 46

Fragment based (PFGE, PCR fingerprint, VNTR)
Sequence based (multi locus sequence typing, single locus ST, SNP genotyping, WGS)
Hybridization methods (oligo typing, microarray)

Question 47

Performance criteria of a typing method

Answer 47

• stability
• typeability
• reproducibility
• discriminatory power
• epidemiological concordance

Question 48

Examples of phenotypic typing methods

Answer 48

• bio typing
• antibiogram-based typing
• serotyping
• phage typing
• bacteriocin typing
• multilocus enzyme electrophoresis
• MS

Question 49

Drawbacks of phenotypic typing methods

Answer 49

• typeability
• reproducibility
• discriminatory power

Question 50

Examples of genotyping methods

Answer 50

• fragment- based methods
• sequence based methods
• hybridization methods

Question 51

Examples of fragment based methods

Answer 51

• restriction endo nuclease based methods
• PCR fingerprinting
• multilocus variable number of tandem repeat analysis

Question 52

Describe ribotyping

Answer 52

• couples genome digestion by a frequent cutting restriction endo nuclease with a 4-bpr ecognition sequence
• hybridization with a probe complementary to rDNA

Question 53

Define a plasmid

Answer 53

Autonomous self-replicating extra chromosomal DNA elements that frequently encode bacterial virulence factors or contain antimicrobial resistance genes

Question 54

Process of pulse field gel electrophoresis

Answer 54

• bacterial cells are lysis and large fragments of the bacterial chromosome are generated by macro restriction analysis
• DNA fragments are separated during electrophoresis using an electric field of periodically alternating polarity

Question 55

Process of multilocus variable number of tandem repeat analysis

Answer 55

• amplifying ghee fragments of DNA that differ in size by the number of repeat segments contained within the amplicon
• length of an allele is directly correlated to the number of repeats

Question 56

Process of repPCR

Answer 56

Amplification of short genomic fragments lying between repetitive elements by using low-stringency PCR with outward primers

Question 57

Examples if sequence based methods

Answer 57

• multi-locus typing
• single locus sequence typing
• single nucleotide polymorphism genotyping
• while genome sequencing

Question 58

Process of multi locus sequence typing (MLST)

Answer 58

• analyses 400-500 bp internal fragments of five to seven housekeeping genes common to many bacteria
• each gene sequence considered as an allele type
• allele type of each gene sequence is combined into allelic profile

Question 59

Advantages of MLST

Answer 59

• explore evolutionary relationships and population structure
• useful for clonal type identification
• gold standard for defining subspecies genetic population structure of micro organisms
• proposed method for legionella pneumophila infections

Question 60

Disadvantages of MLST

Answer 60

• less discriminating for hospital outbreaks
• labour and time consuming
• expensive

Question 61

What is used to type s aureus

Answer 61

Spa typing

Analysis of hyper variable region of staph protein a

Question 62

What is used for s pyogenes typing

Answer 62

Emm typing

Analyses variation in the surface-associated strep virulence protein m

Question 63

Define SNP

Answer 63

A change in a single nucleotide in one sequence relative to wild type due to random nucleotide mutation, horizontal gene transfer or iatrogenic recombination

Question 64

Theories of the origin of viruses

Answer 64

• regressive
• cellular origin
• co-evolution

Question 65

Types of mobile viral elements

Answer 65

• pseudo genes
• retroposons
• transposons
• group 2 introns

Question 66

Mechanisms of endogenous viruses causing cancer

Answer 66

• oncogene transfer
• insertional mutagenesis
• activating oncogene with promoter
• inhibiting a promoter suppressing an oncogene