8. ANTIMICROBIALS

Question 1

chemical substances produced by microorganisms with the capacity to inhibit (bacteriostatic) or kill (bactericidal) other microorganisms

can also be synthesized by means of chemical procedures that are independent from microbial activity

Answer 1

ANTIBIOTICS

Question 2

Antibiotics examples

Answer 2

Bacitracin
Polymyxin
Cephalosporins
Gentamicin
Penicillin
Erythromycin
Neomycin
Amphotericin B
Nystatin
Chloramphenicol

Question 3

Source of Bacitracin

Answer 3

Bacillus subtilis

Question 4

Source of Polymyxin

Answer 4

Bacillus polymyxa

Question 5

Source of Cephalosporins

Answer 5

Cephalosporium

Question 6

Source of Gentamicin

Answer 6

Micromonospora purpurea

Question 7

Source of Erythromycin

Answer 7

Streptomyces erythraeus

Question 8

Source of Penicillin

Answer 8

Penicillium notatum

Question 9

Source of Amphotericin B

Answer 9

Streptomyces nodosus

Question 9

Source of Nystatin

Answer 9

Streptomyces noursei

Question 9

Source of Neomycin

Answer 9

Streptomyces fradiae

Question 10

Source of Chloramphenicol

Answer 10

Streptomyces venezuelae

Question 11

antimicrobial agents that inhibit bacterial
growth but generally do not kill the organism

Answer 11

BACTERIOSTATIC AGENTS

Question 12

agents that usually kill target organisms

Answer 12

BACTERICIDAL AGENTS

Question 13

Generally Bacteriostatic agents

Answer 13

Chloramphenicol
Erythromycin and other macrolides
Clindamycin
Sulfonamides
Trimethoprim
Tetracyclines
Tigecycline
Linezolid
Quinupristin/dalfopristin

Question 14

Generally Bactericidal agents

Answer 14

Aminoglycosides
ẞ-lactams
Vancomycin
Daptomycin
Teicoplanin
Telavancin
Quinolones (e.g., ciprofloxacin, levofloxacin)
Rifampin
Metronidazole

Question 15

effective against limited number of pathogens

Answer 15

Narrow-Spectrum

Question 16

Narrow-Spectrum antimicrobials

Answer 16

bacitracin,
clindamycin,
dapsone,
erythromycin,
isoniazid,
penicillin,
polymyxin B and
vancomycin

Question 17

destroys different kinds of organisms

Answer 17

Broad-Spectrum

Question 18

Broad-Spectrum examples

Answer 18

ampicillin,
cephalosporins,
chloramphenicol,
ciprofloxacin,
rifampicin,
sulphonamides,
trimethoprim and
tetracyclin

Question 19

Classification of Antibacterial Drugs

Answer 19

1. Natural Drugs
2. Semi-synthetic Drugs
3. Synthetic Drugs

Question 20

produced by bacteria and fungi

Answer 20

Natural Drugs

Question 21

Natural Drugs examples

Answer 21

amphotericin B,
erythromycin,
kanamycin,
neomycin,
nystatin,
rifampicin,
streptomycin,
tetracyclin,
vancomycin,
bacitracin,
gentamicin,
polymyxin,
griseofulvin,
penicillin and
cephalosporin

Question 22

modified natural drugs with added chemical group

Answer 22

Semi-synthetic Drugs

Question 23

Semi-synthetic Drugs Examples

Answer 23

ampicillin,
carbenicillin and
methicillin

Question 24

chemically produced drugs

Answer 24

Synthetic Drugs

Question 25

Synthetic Drugs Examples

Answer 25

sulphonamides,
trimethoprim,
chloramphenicol,
ciprofloxacin and
dapson

Question 26

MODE OF ACTION OF ANTIBACTERIAL AGENTS

Answer 26

A. Inhibitors of Cell Wall Synthesis
B. Protein Synthesis Inhibitors
C. Nucleic Acid Synthesis Inhibitors
D. Cell Membrane Inhibitors
E. Essential Metabolite Inhibitors

Question 27

most selective with a high therapeutic index
inhibit the activity of the transpeptidase enzymes in which cell growth stops and death of the cell often follows

Answer 27

Inhibitors of Cell Wall Synthesis

Question 28

Inhibitors of Cell Wall Synthesis examples

Answer 28

β-Lactam (Beta-Lactam)
Vancomycin
Bacitracin
Isoniazid
Cephalosporins
Penicillinase-resistant penicillin drugs
Carbenicillin

Question 29

inhibits transpeptidation and cell wall synthesis

Answer 29

β-Lactam (Beta-Lactam)

Question 30

β-Lactam (Beta-Lactam) examples

Answer 30

penicillins,
cephalosporins,
carbapenems and
monobactams

Question 31

inhibits translocation and elongation of
peptidoglycan layer

Answer 31

Vancomycin

Question 32

inhibits synthesis of peptidoglycan precursors

Answer 32

Bacitracin

Question 33

acts only on growing cells and can either be bactericidal or bacteriostatic

Answer 33

Isoniazid

Question 34

Cephalosporins examples

Answer 34

cephalothin,
cefoxitin,
ceftriaxone,
cephalexin,
cefixime and
cefoperazone

Question 35

Penicillinase-resistant penicillin drugs examples

Answer 35

methicillin,
nafcillin and
oxacilin

Question 36

binds with 30S subunit that results in the misreading of mRNA and thus interferes with aminoacyl-tRNA binding
also binds with 50S subunit that results in the inhibition of peptidyl transferase and peptide chain elongation

Answer 36

Protein Synthesis Inhibitors

Question 37

Protein Synthesis Inhibitors Examples:
Binds to 30S

Answer 37

aminoglycosides(gentamicin),
kanamycin,
neomycin,
streptomycin,
tobramycin),
tetracyclins,
spectinomycin
mioglycosides

Question 38

Protein Synthesis Inhibitors Examples:
Binds to 50S

Answer 38

chloramphenicol,
erythromycin,
lincomycin and
clindamycin

Question 39

blocks the initial step in protein synthesis

Answer 39

Linezolid

Question 40

C. Nucleic Acid Synthesis Inhibitors examples

Answer 40

Rifampicin
Quinolone
Metronidazole

Question 41

 inhibits RNA polymerase

Answer 41

Rifampicin

Question 42

interferes with DNA gyrase and topoisomerase IV and highly effective for enteric bacteria (e.g, E.coli)

Answer 42

Quinolone

Question 43

Quinolone examples

Answer 43

ciprofloxacin,
norfloxacin and
levofloxacin

Question 44

disrupts DNA and effective against anaerobic bacteria

Answer 44

Metronidazole

Question 45

D. Cell Membrane Inhibitors

Answer 45

Polymyxin B and E

Question 46

for gram(-) bacteria (e.g., Pseudomonas aeruginosa) and as topical antibiotic

Answer 46

Polymyxin B and E

Question 47

Essential Metabolite Inhibitors examples

Answer 47

Sulfamethoxazole (SMZ)
Trimethoprim (TMP)
Dapsone
Isoniazid

Question 48

inhibits folic acid metabolism and has a high therapeutic index

Answer 48

Sulfamethoxazole (SMZ)

Question 49

blocks tetrahydrofolate synthesis

Answer 49

Trimethoprim (TMP)

Question 50

interferes with folic acid synthesis

Answer 50

Dapsone

Question 51

inhibits cord factor synthesis (mycolic acid)

Answer 51

Isoniazid