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Tetracycline antibiotics are protein synthesis inhibitors. [22] They inhibit the initiation of translation in variety of ways by binding to the 30S ribosomal subunit, which is made up of 16S rRNA and 21 proteins. They inhibit the binding of aminoacyl-tRNA to the mRNA translation complex.
Tetracycline inhibits protein synthesis by blocking the attachment of charged tRNA at the P site peptide chain. Tetracycline blocks the A-site so that a hydrogen bond is not formed between the amino acids. Tetracycline binds to the 30S and 50S subunit of microbial ribosomes. [3] Thus, it prevents the formation of a peptide chain. [25]
When purifying protein from a biological extract, streptomycin sulfate is sometimes added as a means of removing nucleic acids and ribonuclear proteins. Since it binds to ribosomes and precipitates out of solution, it serves as a method for removing rRNA, mRNA, and even DNA if the extract is from a prokaryote. [13]
The interference with mRNA proofreading has been exploited to treat genetic diseases that result from premature stop codons (leading to early termination of protein synthesis and truncated proteins). Aminoglycosides can cause the cell to overcome the stop codons, insert a random amino acid, and express a full-length protein. [13]
Inhibits bacterial protein synthesis by binding to the 50S subunit of the ribosome Fosfomycin: Monurol, Monuril: Acute cystitis in women: This antibiotic is not recommended for children and 75 and up of age: Inactivates enolpyruvyl transferase, thereby blocking cell wall synthesis Fusidic acid: Fucidin: Metronidazole: Flagyl
Most target bacterial functions or growth processes. [8] Those that target the bacterial cell wall (penicillins and cephalosporins) or the cell membrane , or interfere with essential bacterial enzymes (rifamycins, lipiarmycins, quinolones, and sulfonamides) have bactericidal activities, killing the bacteria.
It inhibits the synthesis of bacterial proteins by binding to the 30S ribosomal subunit, which is only found in bacteria. [70] [81] This prevents the binding of transfer RNA to messenger RNA at the ribosomal subunit, meaning amino acids cannot be added to polypeptide chains and new proteins cannot be made.
Of the lincosamides, clindamycin is most commonly used within the clinic due to its higher bioavailability, higher oral absorption and efficacy within the target organism spectrum. [23] Lincosamides are generally the first-choice use antibiotic class in veterinary microbiology, most commonly used to combat skin infections.