Biochemistry and Molecular Biology of Antimicrobial Drug Action

Biochemistry and Molecular Biology of Antimicrobial Drug Action

Bibliographic Details
Main Author: Franklin, T. (Author)
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: Dordrecht : Springer Netherlands : Imprint: Springer, 1998.
Edition:1st ed. 1998.
Subjects:
Biochemistry.
Biochemistry, general.
Science, Humanities and Social Sciences, multidisciplinary.
Online Access:https://doi.org/10.1007/978-94-010-9127-5
Table of Contents:
  • 1 The Development of Antimicrobial Agents Past, Present and Future
  • 1.1 The social and economic importance of antimicrobial agents
  • 1.2 An outline of the historical development of antimicrobial agents
  • 1.3 Reasons for studying the biochemistry and molecular biology of antimicrobial compounds
  • 1.4 Uncovering the molecular basis of antimicrobial action
  • 1.5 Scope and layout of the present book
  • 2 Vulnerable Shields - The Cell Walls of Bacteria and Fungi
  • 2.1 Functions of the cell wall
  • 2.2 Structure of the bacterial wall
  • 2.3 Structure and biosynthesis of peptidoglycan
  • 2.4 Antibiotics that inhibit peptidoglycan biosynthesis
  • 2.5 Drugs that interfere with the biosynthesis of the cell wall of mycobacteria
  • 2.6 The structure of the fungal cell wall
  • 2.7 Inhibitors of the biosynthesis of the fungal cell wall
  • 3 Antiseptics, Antibiotics and the Cell Membrane
  • 3.1 Microbe killers: antiseptics and disinfectants
  • 3.2 Polypeptide antibiotics
  • 3.3 lonophoric antibiotics
  • 3.4 Antifungal agents that interfere with the function and biosynthesis of membrane sterols
  • 4 Inhibitors of Nucleic Acid Synthesis
  • 4.1 Compounds affecting the biosynthesis and utilization of nucleotide precursors
  • 4.2 Inhibitors of nucleic acid biosynthesis at the polymerization stage
  • 5 Inhibitors of Protein Biosynthesis
  • 5.1 Ribosomes
  • 5.2 Stages in protein biosynthesis
  • 5.3 Puromycin
  • 5.4 Inhibitors of aminoacyl-tRNA formation
  • 5.5 Inhibitors of initiation and translation
  • 5.6 Inhibitors of peptide bond formation and translocation
  • 5.7 Nitrofurantoin - a ribosomal poison?
  • 5.8 Effects of inhibitors of 70S ribosomes on eukaryotic cells
  • 6 Antimicrobial Drugs with other Modes of Action
  • 6.1 Antibacterial agents
  • 6.2 A unique antifungal antibiotic - griseofulvin
  • 6.3 Antiviral agents
  • 6.4 Antiprotozoal agents
  • 7 Penetrating the Defences: How Antimicrobial Drugs Reach Their Targets
  • 7.1 Cellular permeability barriers to drug penetration
  • 7.2 Multidrug efflux in bacteria
  • 7.3 Examples of the uptake of antibacterial drugs
  • 7.4 Uptake of antimicrobial drugs by eukaryotic pathogens
  • 8 The Genetic Basis of Resistance to Antimicrobial Drugs
  • 8.1 Mutations and the origins of drug-resistance genes
  • 8.2 Gene mobility and transfer in bacterial drug resistance
  • 8.3 Global regulators of drug resistance in Gram-negative bacteria
  • 9 Biochemical Mechanisms of Resistance to Antimicrobial Drugs
  • 9.1 Enzymic inactivation of drugs
  • 9.2 Modification of drug targets
  • 9.3 Drug efflux pumps
  • 9.4 Other mechanisms of resistance
  • 9.5 Drug resistance and the future of chemotherapy.

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