1. INTRODUCTION TO BACTERIAL SIGNAL TRANSDUCTION NETWORKS; 2. THE PHOQ/PHOP REGULATORY NETWORK OF SALMONELLA ENTERICA; 3. STRUCTURAL BASIS OF THE SIGNAL TRANSDUCTION IN THE TWO-COMPONENT SYSTEM; 4. THE TWO-COMPONENT NETWORK AND THE GENERAL STRESS SIGMA FACTOR RPOS (OS) IN ESCHERICHIA COLI; 5. SMALL RNAS CONTROLLED BY TWO-COMPONENT SYSTEMS; 6. TWO-COMPONENT SIGNALING AND GRAIN NEGATIVE ENVELOPE STRESS RESPONSE SYSTEMS; 7. DUAL REGULATION WITH SER/THR KINASE CASCADE AND A HIS/ASP TCS IN MYXOCOCCUS XANTHUS
8. TWO-COMPONENT SIGNALING SYSTEMS AND CELL CYCLE CONTROL IN CAULOBACTER CRESCENTUS9. REGB/REGA, A GLOBAL REDOX-RESPONDING TWO-COMPONENT SYSTEM; 10. THE BVGS/BVGA PHOSPHORELAY SYSTEM OF PATHOGENIC BORDETELLAE: STRUCTURE, FUNCTION AND EVOLUTION; 11. CAPTURING THE VIRA/VIRG TCS OF AGRPBACTERIUM TUMEFACIENS; 12. QUORUM SENSING AND BIOFILM FORMATION BY STREPTOCOCCUS MUTANS; 13 THE ROLES OF TWO-COMPONENT SYSTEMS IN VIRULENCE OF PATHOGENIC ESCHERICHIA COLI AND SHIGELLA SPP; 14. VANCOMYCIN RESISTANCE VANS/VANR TWO-COMPONENT SYSTEMS
15 TEARING DOWN THE WALL: PEPTIDOGLYCAN METABOLISM AND THE WALK/WALKR (YYCG/YYCF) ESSENTIAL TWO-COMPONENT SYSTEM16. INHIBITORS TARGETING TWO-COMPONENT SIGNAL TRANSDUCTION; INDEX
Summary
Offers an incentive for graduate students, academic scientists, and researchers in the pharmaceutical industry to further elucidate the TCS networks and apply them in the search for novel drugs