• Thiamphenicol packaged and labeled.

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SKU: T005

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Description

Thiamphenicol is a bacteriostatic antibiotic derived from chloramphenicol. Like chloramphenicol, thiamphenicol is insoluble in water but highly soluble in lipids.

    CAS Number

    15318-45-3

    Molecular Formula

    C12H15Cl2NO5S

    Molecular Weight

    356.22 g/mol

    Mechanism of Action

    Both thiamphenicol and chloramphenicol work by the same mechanism, however, thiamphenicol is about 3X as potent. After entering a bacterial cell, thiamphenicol binds to the 50S ribosomal subunit preventing peptide bond formation. Resistance to thiamphenicol may be due to decreased cell permeability or a mutation in the 50S ribosomal subunit.

    Storage Conditions

    2-8 °C, protect from light

    Tariff Code

    2941.40.0000

    Spectrum

    Thiamphenicol is a broad spectrum antibiotic commonly used to target bacteria responsible for causing sexually transmitted diseases.

Applications

    Microbiology Applications

    Thiamphenicol is commonly used in clinical in vitro microbiological antimicrobial susceptibility tests (panels, discs, and MIC strips) against gram positive and gram negative microbial isolates. Medical microbiologists use AST results to recommend antibiotic treatment options for infected patients. Representative MIC values include:

    • Neisseria gonorrhoeae 0.125 µg/mL – 4 µg/mL

    Plant Biology Applications

    In a study by Meynier et al. (1989), thiamphenicol was used for hygienic purposes in hybrid walnut propagation.  In addition to other antibiotics used during the study, thiamphenicol was found to be effective against several gram negative pathogenic bacteria.

Specifications

    Form

    Powder

    Appearance

    Off-white powder

    Source

    Synthetic

    Absorbance

    UV max (95% ethanol): 224, 266, 274 nm (ε 13,700, 800, 700).

    Melting Point

    164.3-166.3 °C

References

    References

    Duck, P. D., and J. R. Dillon. "Effects of Thiamphenicol and Chloramphenicol in Inhibiting Neisseria Gonorrhoeae Isolates." Antimicrobial Agents and Chemotherapy 14.5 (1978): 788-90. www.ncbi.gov. 26 July 1978. Web. 21 Aug. 2012.

    Mayer, Gene, Dr. "Antibiotics - Protein Synthesis, Nucleic Acid Synthesis, and Metabolism." University of South Carolina School of Medicine. Web. 21 Aug. 2012.

    Meynier V. and Arnould M.F., 1989, Compared Effectiveness of Antibiotic Treatments and Shoot Tip Culture on Bacterial Decontamination of an in vitro Propagated Clone of Hybrid Walnut (Juglans nigra x J. regia). Biologia Plantarum (PRAHA) 31 (4): 269-275. 1989

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