Antimicrobial agents are chemical substance that kills or inhibit the growth of microorganism such as bacteria, fungus and yeast. Most of this agents are found in the nature and some are artificial synthesized. They are used for sterilization of instruments, cultures or even wounds.
Alexander Fleming is the first person to discover a natural antimicrobial agent i.e penicillin. After that vast number of agents are discovered or synthesized in the lab.
Chemical
class
|
Examples
|
Biological
source
|
Spectrum
(effective against)
|
Mode of
action
|
Beta-lactams
(penicillins and cephalosporins)
|
Penicillin
G, Cephalothin
|
Penicillium
notatum and Cephalosporium species
|
Gram-positive
bacteria
|
Inhibits
steps in cell wall (peptidoglycan) synthesis and murein assembly
|
Semisynthetic
beta-lactams
|
Ampicillin,
Amoxicillin
|
Gram-positive
and Gram-negative bacteria
|
Inhibits
steps in cell wall (peptidoglycan) synthesis and murein assembly
|
|
Clavulanic
Acid
|
Augmentin
is clavulanic acid plus Amoxicillin
|
Streptomyces
clavuligerus
|
Gram-positive
and Gram-negative bacteria
|
Inhibitor
of bacterial beta-lactamases
|
Monobactams
|
Aztreonam
|
Chromobacterium
violaceum
|
Gram-positive
and Gram-negative bacteria
|
Inhibits
steps in cell wall (peptidoglycan) synthesis and murein assembly
|
Carboxypenems
|
Imipenem
|
Streptomyces
cattleya
|
Gram-positive
and Gram-negative bacteria
|
Inhibits
steps in cell wall (peptidoglycan) synthesis and murein assembly
|
Aminoglycosides
|
Streptomycin
|
Streptomyces
griseus
|
Gram-positive
and Gram-negative bacteria
|
Inhibits
translation (protein synthesis)
|
Gentamicin
|
Micromonosporaspecies
|
Gram-positive
and Gram-negative bacteria esp.Pseudomonas
|
Inhibits
translation (protein synthesis)
|
|
Glycopeptides
|
Vancomycin
|
Amycolatopsis
orientalisNocardia orientalis(formerly designated)
|
Gram-positive
bacteria, esp.Staphylococcus aureus
|
Inhibits
steps in murein (peptidoglycan) biosynthesis and assembly
|
Lincomycins
|
Clindamycin
|
Streptomyces
lincolnensis
|
Gram-positive
and Gram-negative bacteria esp. anaerobicBacteroides
|
Inhibits
translation (protein synthesis)
|
Macrolides
|
Erythromycin
Azithromycin
|
Streptomyces
erythreus
|
Gram-positive
bacteria, Gram-negative bacteria not enterics, Neisseria, Legionella,
Mycoplasma
|
Inhibit
translation (protein synthesis)
|
Polypeptides
|
Polymyxin
|
Bacillus
polymyxa
|
Gram-negative
bacteria
|
Damages
cytoplasmic membranes
|
Bacitracin
|
Bacillus
subtilis
|
Gram-positive
bacteria
|
Inhibits
steps in murein (peptidoglycan) biosynthesis and assembly
|
|
Polyenes
|
Amphotericin
|
Streptomyces
nodosus
|
Fungi (Histoplasma)
|
Inactivate
membranes containing sterols
|
Nystatin
|
Streptomyces
noursei
|
Fungi (Candida)
|
Inactivate
membranes containing sterols
|
|
Rifamycins
|
Rifampicin
|
Streptomyces
mediterranei
|
Gram-positive
and Gram-negative bacteria,Mycobacterium tuberculosis
|
Inhibits
transcription (bacterial RNA polymerase)
|
Tetracyclines
|
Tetracycline
|
Streptomycesspecies
|
Gram-positive
and Gram-negative bacteria, Rickettsias
|
Inhibit
translation (protein synthesis)
|
Semisynthetic
tetracycline
|
Doxycycline
|
Gram-positive
and Gram-negative bacteria, RickettsiasEhrlichia,Borrelia
|
Inhibit
translation (protein synthesis)
|
|
Chloramphenicol
|
Chloramphenicol
|
Streptomyces
venezuelae
|
Gram-positive
and Gram-negative bacteria
|
Inhibits
translation (protein synthesis)
|
Quinolones
|
Nalidixic
acid
|
synthetic
|
Mainly
Gram-negative bacteria
|
Inhibits
DNA
replication |
Fluoroquinolones
|
Ciprofloxacin
|
synthetic
|
Gram-negative
and some Gram-positive bacteria (Bacillus anthracis)
|
Inhibits
DNA replication
|
Growth
factor analogs
|
Sulfanilamide,
Gantrisin, Trimethoprim
|
synthetic
|
Gram-positive
and Gram-negative bacteria
|
Inhibits
folic acid metabolism (anti-folate)
|
Isoniazid
(INH)
|
synthetic
|
Mycobacterium
tuberculosis
|
Inhibits
mycolic acid synthesis; analog of pyridoxine (Vit B6)
|
|
para-aminosalicylic
acid (PAS)
|
synthetic
|
Mycobacterium
tuberculosis
|
Anti-folate
|
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