Rifampicin Powder, a potent antibiotic derived from Streptomyces mediterranei, is renowned for its bactericidal activity against a broad spectrum of bacteria. Its mechanism of action involves inhibiting bacterial RNA synthesis by binding to the beta subunit of bacterial DNA-dependent RNA polymerase.
In microbiology, Rifampicin Powder is indispensable for creating selective culture media. Microbiologists rely on Rifampicin Powder to inhibit the growth of unwanted bacteria while fostering the growth of specific strains.
Moreover, Rifampicin Powder plays a crucial role in antimicrobial susceptibility testing. This testing method is essential for determining the most effective treatment for bacterial infections by evaluating the sensitivity of bacteria to various antibiotics, including Rifampicin.
Additionally, researchers utilize Rifampicin Powder in genetic engineering experiments. By introducing it into cell cultures, scientists can select cells with integrated genetic constructs and monitor their expression levels. This application highlights the versatility of Rifampicin Powder beyond its antimicrobial properties.
Furthermore, Rifampicin Powder is a vital tool in studying bacterial resistance mechanisms. Exposure to Rifampicin allows researchers to investigate how bacteria develop resistance to this antibiotic and develop strategies to combat antibiotic resistance.
In summary, Rifampicin Powder is an indispensable component in microbiology labs. Its ability to inhibit bacterial growth, its role in susceptibility testing, its contribution to genetic engineering experiments, and its significance in studying resistance mechanisms underline its importance in microbial research.
Cat. Number | AS-2018 |
CAS Number | 13292-46-1 |
MDL Number | MFCD00151389 |
Pubchem | 310279729 |
Molecular Weight | 822.94 |
Molecular Formula | C43H58N4O12 |
Storage Temperature | 4°C |
Form and Color | Powder, orange to red/brown |
Assay (on dry basis) | Min. 96.5% |
Heavy metals | ≤ 20ppm |
Sulphated ash | ≤ 0.1% |
Loss on Drying | Max. 1% |
H1-NMR | Corresponds to structure |