Microbial Resistance to Drugs

1 Role of the Outer Membrane of Gram-Negative Bacteria in Antimicrobial Resistance.- A. Introduction.- B. The Outer Membrane Barrier.- C. The Measurement of Outer Membrane Permeability.- D. Permeability of Bacterial Outer Membranes to ?-Lactam Antibiotics.- E. Permeation of Some Other Agents Through Porin Channels.- F. Contribution of Non-porin Pathways.- G. Outer Membrane Permeability to Polycationic Agents.- H. Conclusions.- References.- 2 Cytoplasmic Membrane Transport and Antimicrobial Resistance.- A. Summary of Transport Systems.- B. Antimicrobial Resistance Associated with Antimicrobial Transport.- References.- 3 Susceptibility and Resistance of Plasmodium falciparum to Chloroquine.- A. Introduction.- B. Mechanism of Chloroquine Action.- C. Mechanism of Chloroquine Resistance.- D. Action of Mefloquine, Quinine, and Quinidine.- E. Summary of Basic Concepts and Prospects for the Future.- References.- 4 Resistance to ?-Lactam Antibiotics Mediated by Alterations of Penicillin-Binding Proteins.- A. Introduction.- B. Mechanisms of Resistance to ?-Lactam Antibiotics.- C. Classification of PBP Alterations in ?-Lactam-Resistant Strains.- D. Laboratory Studies on the Development of ?-Lactam-Resistant PBPs in E. coli.- E. PBP Alterations in Clinical Isolates.- F. Concluding Remarks.- References.- 5 Plasmid-Determined Beta-Lactamases.- A. Introduction.- B. General Properties of Beta-Lactamases.- C. Classification of Beta-Lactamases.- D. Properties of Plasmid-Determined Beta-Lactamases.- E. Relatedness of Plasmid-Determined Beta-Lactamases.- F. Spread of Plasmid-Deter mined Beta-Lactamases in Patient Flora.- G. Contribution of Plasmid-Determined Beta-Lactamases to Beta-Lactam Antibiotic Resistance.- References.- 6 The Chromosomal Beta-Lactamases.- A. Introduction.- B.General Characteristics.- C. Cephalosporinases.- D. Oxyiminocephalosporinases.- E. Penicillinases.- F. Broad-Spectrum Beta-Lactamases.- G. Subclassification Scheme for Chromosomal Beta-Lactamases.- References.- 7 Beta-Lactamases: Genetic Control.- A. Introduction.- B. Classification of Beta-Lactamases.- C. Regulation of Class A Enzymes.- D. Regulation of Class C Enzymes.- E. Conclusion.- References.- 8 Resistance to Quinolones and Fluoroquinolones.- A. Introduction.- B. Mechanism of Action.- C. Mechanisms of Resistance.- D. Clinical Implications of Resistance Mechanisms.- E. Summary and Conclusions.- References.- 9 Ribosomal Changes Resulting in Antimicrobial Resistance.- A. Introduction.- B. Changes in Ribosomal Proteins.- C. Changes in Ribosomal RNA Which Result in Antimicrobial Resistance.- D. Antibiotics and Phylogeny.- E. Ribosomal Antibiotic Resistance in Clinical Isolates.- F. Conclusions and Perspectives.- References.- 10 Methylation of RNA and Resistance to Antibiotics.- A. Introduction.- B. Resistance Due to Target Site Modification.- C. Concluding Remarks.- References.- 11 Resistance to Trimethoprim.- A. Introduction.- B. Mechanisms of Resistance.- C. Epidemiology of Trimethoprim Resistance.- D. Mechanism and Epidemiology of Trimethoprim Resistance in Gram-Positive Organisms.- E. Conclusion.- References.- 12 Resistance to Sulfonamides.- A. Introduction.- B. Sulfonamide Usage Today.- C. Prevalence of Sulfonamide Resistance.- D. Mode of Action of Sulfonamides.- E. Mechanisms of Sulfonamide Resistance.- F. Genetics of Sulfonamide Resistance.- References.- 13 Chloramphenicol Acetyltransferases.- A. Chloramphenicol Resistance: General Aspects.- B. Enzymology of Chloramphenicol-Acetylation.- C. Control of Expression of Chloramphenicol Acetyltransferases.- References.- 14 General Properties of Resistance Plasmids.- A. Introduction.- B. Plasmid Classification.- C. Structure of Plasmids.- D. Plasmid Transfer.- E. Plasmid Maintenance and Replication.- F. Antibiotic Resistance and Other Plasmid-Encoded Properties.- G. Conclusions and Directions for Future Studies.- References.- 15 Clinical Laboratory Testing for Antimicrobial Resistance.- A. Introduction.- B. Standardization of Test Procedures.- C. Relevance of Testing and Clinical Laboratory Correlation.- D. DNA Probes for AST.- E. Conclusions.- References.- 16 The Molecular Epidemiology of Antimicrobial Resistance.- A. Introduction.- B. Plasmids as Strain Markers.- C. Epidemic Plasmids.- D. Endemic Antibiotic Resistance.- References.- 17 Microbial Persistence or Phenotypic Adaptation to Antimicrobial Agents: Cystic Fibrosis as an Illustrative Case.- A. Introduction.- B. Cystic Fibrosis and Microbial Persistence.- C. Factors Associated with Persistence of P. aeruginosa During Antimicrobial Therapy in Cystic Fibrosis.- References.- 18 Microbes Causing Problems of Antimicrobial Resistance.- A. Staphylococcus Species.- B. Streptococcus Species.- C. Gram-Negative Aerobic Bacilli.- References.