- Kanamycin
Drugbox
IUPAC_name = 2-(aminomethyl)- 6- [4,6-diamino-3- [4-amino-3,5-dihydroxy-6-(hydroxymethyl) tetrahydropyran-2-yl] oxy-2-hydroxy-cyclohexoxy] - tetrahydropyran-3,4,5-triol
CAS_number=8063-07-8
ATC_prefix=A07
ATC_suffix=AA08
ATC_supplemental=ATC|J01|GB04 ATC|S01|AA24
PubChem=6032
DrugBank=APRD00026
C=18 | H=36 | N=4 | O=11
molecular_weight = 484.499
bioavailability= very low after oral delivery
metabolism = ?
elimination_half-life= 2 hours 30 minutes
excretion = ?
pregnancy_category = ?
legal_status = ?
routes_of_administration= Oral, intravenous, intramuscularKanamycin sulfate is an
aminoglycoside antibiotic , available in both andintravenous forms, and used to treat a wide variety ofinfection s. Kanamycin is isolated from "Streptomyces kanamyceticus " [Garrod, L.P., et al.: "Antibiotic and Chemotherapy", page 131. Churchill Livingstone, 1981] .Pharmacology
Kanamycin works by affecting the
30S ribosomal subunit and causing aframeshift mutation or it prevents thetranslation ofRNA . This means that instead of acodon CAT (for example in sequence CATG), a codon ATG is read byaminoacyl tRNA (aa-tRNA). Aminoacyl tRNA is consequently carrying a differentamino acid , because theanticodon on the aa-tRNA is different. Theprotein needed cannot be synthesized: depending on the site and severity of the frame shift, either a completely different protein is synthesized, or a protein similar to the one needed is synthesized, but is folded incorrectly. A bacterium is destroyed because it cannot produce any of its proteins correctly.Fact|date=September 2007Kanamycin is not given to humans often because of its fairly toxic side-effects.
ide effects
Serious side effects include changes in hearing (either hearing loss or ringing in the ears),
toxicity to kidneys , andallergic reactions to the drug. [Citation | title = Consumer Drug Information: Kanamycin | date = 2 April 2008 | url = http://www.drugs.com/cdi/kanamycin.html | accessdate = 2008-05-04]Use in research
Kanamycin is used in molecular biology as a selective agent most commonly to isolate bacteria (e.g., E. coli) which have taken up genes (e.g., of plasmids) coupled to a gene coding for kanamycin resistance. Bacteria that have been transformed (
Transformation (genetics) ) with a plasmid containing the kanamycin resistance gene are plated on kanamycin (50-100mg/L) containing agar plates or are grown in media containing kanamycin (50-100mg/L). Only the bacteria that have successfully taken up the kanamycin resistance gene become resistant and will grow under these conditions. As a powder kanamycin is white to off-white and is soluble in water (50mg/ml). At least one such gene, "Atwbc19" [ [http://www.isb.vt.edu/articles/oct0501.htm Horizontal Gene Transfer: Plant vs. Bacterial Genes for Antibiotic Resistance Scenario's—What's the Difference?] ] is native to a plant species, of comparatively large size and its coded protein acts in a manner which decreases the possibility ofHorizontal Gene Transfer from the plant to bacteria; it may be incapable of giving resistance to kanamycin to bacteria even if gene transfer occurs.References
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