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How Clindamycin, Macrolide Erythromycin and chloramphenicol inhibit the protein synthesis by inhibiting the chain elongation process?
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Mechanism of Action of Erythromycin, Azithromycin, Clarithromycin, Chloramphenicol, and Clindamycin
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- 1 Introduction and overview of lecture
- 2 Overview of similarities between Clindamycin, Macrolide and chloramphenicol
- 3 Clindamycin, macrolide Erythromycin and chloramphenicol work as protein synthesis inhibitors
- 4 MOA of clindamycin, macrolide Erythromycin and chloramphenicol on Bacterial Ribosomes
- 5 MOA of clindamycin, macrolide Erythromycin and chloramphenicol on larger 50s ribosomal subunit
- 6 Action of clindamycin , macrolide Erythromycin and Chloramphenicol on 23s Ribosomal RNA
- 7 Summary of above 4 similarities in the MOA of Clindamycin , Macrolide Erythromycin and Chloramphenicol
- 8 MOA of Clindamycin, Macrolide Erythromycin and Chloramphenicol on Ribozyme
- 9 What is Peptidyl Transferase?
- 10 Summary of all above similarities between Clindamycin, Macrolide Erythromycin and Chloramphenicol
- 11 Detailed explanation on the functions of Peptidyl Transferase
- 12 Transpeptidation and Ribosomal Translocation
- 13 Peptide chain elongation
- 14 How Clindamycin, Macrolide Erythromycin and chloramphenicol inhibit the protein synthesis by inhibiting the chain elongation process?
- 15 Summary of similarities between Clindamycin, Macrolide Erythromycin and Chloramphenicol
- 16 MOA; Clindamycin
- 17 MOA; Clindamycin as bacteriostatic and bactericidal
- 18 Summary of MOA of Clindamycin
- 19 MOA; Macrolides Erythromycin
- 20 MOA; Chloramphenicol binding site.
- 21 MOA; Comparison of binding site of clindamycin vs macrolide vs chloramphenicol.
- 22 MOA; Chloramphenicol.