Verrucosispora actinomycetes can make antibiotics {abyssomicin}.
Streptomycin {aminoglycoside} can inhibit enzyme synthesis.
Drugs {bacterin} can destroy bacteria.
Penicillin, methicillin, and penicillin-derivatives {beta-lactam} can inhibit cell-wall protein synthesis [1940].
Imipenem {carbapenem} can inhibit cell-wall protein synthesis.
Ceftibuten {cephalosporin} can inhibit cell-wall protein synthesis.
Drugs {chloramphenicol} can be early antibiotics [1949].
Ciprofloxacin {fluoroquinoline} can inhibit enzymes. Ciprofloxacin treats anthrax.
Vancomycin {glycopeptide} can inhibit cell-wall protein synthesis [1958].
Drugs {hexachlorophene} can destroy bacteria mechanically.
Drugs {lipopeptide} can be in membranes [2003].
Erythromycin {macrolide} can inhibit enzyme synthesis [1952].
Retapamulin {mutilin} can inhibit enzyme synthesis [2007].
Linezolid {oxazolidinone} can inhibit enzyme synthesis [2000].
Ciprofloxacin {quinolone} can inhibit DNA unwinding [1962].
Drugs {streptogramin} can kill streptococci [1962].
Drugs {sulfa drug} can be amines with sulfur [1938].
Sulfamethoxazole {sulfonamide} can inhibit nucleic-acid precursor synthesis.
Minocycline {tetracycline} can inhibit enzyme synthesis [1949] and microglial activation. Minocycline can cross brain-blood barrier but does not affect astroglia or neurons.
Drugs {triclocarban} can be similar to triclosan.
Drugs {triclosan} can be similar to triclocarban.
Drugs {trimethoprim} can inhibit nucleic-acid precursor synthesis.
4-Medicine-Drug-Kinds-Antibiotic
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Date Modified: 2022.0225