Antibiotic Resistance Protocols

<p>1.  Methods for Measuring the Production of Quorum Sensing Signal Molecules </p> <p>Manuel Alcalde-Rico and José Luis Martínez</p> <p>2.  Construction and Use of Staphylococcus aureus Strains to Study Within-Host Infection Dynamics  </p> <p>Gareth McVicker, Tomasz K. Prajsnar, and Simon J. Foster</p> <p>3.  Method for Detecting and Studying Genome-wide Mutations in Single Living Cells in Real-time  </p> <p>Marina Elez, Lydia Robert, and Ivan Matic</p> <p>4.  Detecting Phenotypically Resistant Mycobacterium tuberculosis using Wavelength Modulated Raman Spectroscopy</p> <p>Vincent O. Baron, Mingzhou Chen, Simon O. Clark, Ann Williams, and Stephen H. Gillespie</p> <p>5. A Flow Cytometry Method for Assessing M. tuberculosis Responses to Antibiotics   Charlotte L. Hendon-Dunn, Stephen R. Thomas, Stephen C. Taylor, and Joanna Bacon</p> <p>6.  Application of Continuous Culture for Assessing Antibiotic Activity against Mycobacterium tuberculosis  </p> <p>Charlotte Hendon-Dunn, Saba Anwar, Christopher Burton, and Joanna Bacon</p> <p>7.  Real-Time Digital Bright Field Technology for Rapid Antibiotic Susceptibility Testing   Chiara Canali, Erik Spillum, Martin Valvik, Niels Agersnap, and Tom Olesen</p> <p>8.  Enhanced Methodologies for Detecting Phenotypic Resistance in Mycobacteria  </p> <p>Robert J H Hammond, Vincent Baron, Sam Lipworth, and Stephen H. Gillespie</p> <p>9.  Methods to Determine Mutational Trajectories after Experimental Evolution of Antibiotic Resistance </p> <p>Douglas Huseby and Diarmaid Hughes</p><p></p> <p>10.  Selection of ESBL-producing E. coli in a Mouse Intestinal Colonization Model </p> <p>Frederik Boëtius Hertz, Karen Leth Nielsen, and Niels Frimodt-Møller</p> <p>11.  Transcriptional Profiling Mycobacterium tuberculosis from Patient Sputa</p> <p>Leticia Muraro-Wildner, Katherine A Gould, and Simon J Waddell</p> <p>12. Direct Agarose Gel Probing, Pulsed Field Gel Electrophoresis, Plasmid detection, Genomic Location, and Resistance Gene Mapping</p> <p> Mark A Toleman</p> <p>13. Using RT qPCR for Quantifying Mycobacteria marinum from In-vitro and In-vivo Samples</p> <p>Han Xaio and Stephen H. Gillespie</p> <p>14. Use of Larval Zebrafish Model to Study Within-Host Infection Dynamics  </p> <p>Tomasz K. Prajsnar, Gareth McVicker, Alexander Williams, Stephen A. Renshaw, and Simon J. Foster</p>  15.  A Method to Evaluate Persistent Bacteria in vitro and in the Cornell Model of Tuberculosis <p>Yanmin Hu and Anthony Coates</p>