How Do You Spell CHLORAMPHENICOL RESISTANCES?

Pronunciation: [klˈɔːɹɐmfənˌɪkɒl ɹɪsˈɪstənsɪz] (IPA)

The word "Chloramphenicol Resistances" refers to the ability of bacteria to resist the effects of the antibiotic chloramphenicol. To understand the pronunciation of this word, we can use the International Phonetic Alphabet (IPA) transcription. It would be /klɔːrəmˈfɛnɪkəl rɪˈzɪstənsɪz/. The stress falls on the third syllable, "fen," while the long "o" sound in "chloramphenicol" is pronounced as /ɔː/. Understanding the proper spelling and pronunciation of technical terms like this is crucial, especially in the field of microbiology and medicine.

CHLORAMPHENICOL RESISTANCES Meaning and Definition

  1. Chloramphenicol resistance refers to the ability of microorganisms, particularly bacteria, to withstand or evade the effects of the antibiotic chloramphenicol. Chloramphenicol is a broad-spectrum antibiotic that inhibits bacterial protein synthesis by targeting the ribosomes. It is commonly used for the treatment of various bacterial infections, including typhoid fever, bacterial meningitis, and some respiratory tract infections.

    Chloramphenicol resistance can occur through different mechanisms, mainly involving the modification or inactivation of the drug by specific enzymes. One such mechanism involves the production of chloramphenicol acetyltransferases, enzymes that chemically modify the antibiotic by adding an acetyl group. This modification prevents chloramphenicol from effectively binding to the bacterial ribosomes, rendering the drug inefficient.

    Another mechanism of resistance involves the production of alternate drug targets, such as mutated ribosomal subunits that are not affected by chloramphenicol. This alteration allows the bacteria to continue protein synthesis while inhibiting or minimizing chloramphenicol's impact.

    Chloramphenicol resistance can emerge through both intrinsic and acquired means. Intrinsic resistance refers to natural resistance present in certain bacterial species, while acquired resistance occurs when bacteria acquire resistance genes from other organisms through horizontal gene transfer.

    Understanding and monitoring chloramphenicol resistance is crucial in healthcare settings to guide appropriate antibiotic choices and prevent the spread of resistant bacteria. The investigation and management of chloramphenicol resistance involve various laboratory techniques, such as susceptibility testing, genotypic analysis, and molecular assays, to identify the mechanisms and genes responsible for resistance.

Common Misspellings for CHLORAMPHENICOL RESISTANCES

  • xhloramphenicol resistances
  • vhloramphenicol resistances
  • fhloramphenicol resistances
  • dhloramphenicol resistances
  • cgloramphenicol resistances
  • cbloramphenicol resistances
  • cnloramphenicol resistances
  • cjloramphenicol resistances
  • culoramphenicol resistances
  • cyloramphenicol resistances
  • chkoramphenicol resistances
  • chporamphenicol resistances
  • chooramphenicol resistances
  • chliramphenicol resistances
  • chlkramphenicol resistances
  • chllramphenicol resistances
  • chlpramphenicol resistances
  • chl0ramphenicol resistances
  • chl9ramphenicol resistances
  • chloeamphenicol resistances

Etymology of CHLORAMPHENICOL RESISTANCES

The word "Chloramphenicol" is derived from its chemical composition. "Chloro" refers to the chlorine atom present in the compound, and "amphenicol" refers to the amide group in its chemical structure.

The term "resistance" in "Chloramphenicol Resistance" refers to the ability of organisms to withstand or survive the effects of chloramphenicol, which is an antibiotic commonly used to treat bacterial infections.

Overall, the etymology of the term "Chloramphenicol Resistance" is derived from the chemical name of chloramphenicol itself, combined with the concept of resistance to its antibacterial effects.

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