<p>Preface…<br> Table of Contents…<br> Contributors…<br> <br> </p><p>Part I Flagellar Type III Protein Export, Assembly and Gene Regulation in Salmonella enterica</p><p>1. Fuel of the Bacterial Flagellar Type III Protein Export Apparatus<br> Tohru Minamino, Miki Kinoshita and Keiichi Namba</p><p>2. Interactions of Flagellar Structural Subunits with the Membrane Export Components Machinery<br> Lewis D.B. Evans, Paul M. Bergen, Owain J. Bryant and Gillian M. Fraser</p>3. Fluorescent Microscopy Techniques to Study Hook Length Control and Flagella Formation<br> Marc Erhardt<p></p>4. Coupling of Flagellar Gene Expression with Assembly in Salmonella enterica<br> Fabienne F.V. Chevance and Kelly T Hughes <p></p><p>5. Dynamic Measures of Flagellar Gene Expression <br> Santosh Koirala and Christopher V. Rao</p><p>Part II Structure of the Bacterial Flagellum</p>6. Purification and Characterization of the Bacterial Flagellar Basal Body from Salmonella enterica<br> Shin-Ichi Aizawa<p></p>7. Design and Preparation of the Fragment Proteins of the Flagellar Components Suitable for X-Ray Crystal Structure Analysis <br> Katsumi Imada<p></p>8. Structural Analysis of the Flagellar Component Proteins in Solution by Small Angle X-Ray Scattering<br> Lawrence K. Lee<p></p><p>9. Structural Study of the Bacterial Flagellar Basal Body by Electron Cryomicroscopy and Image Analysis<br> Akihoro Kawamoto and Keiichi Namba</p><p>10. Structure of the MotA/B Proton Channel <br> Akio Kitao and Yasutaka Nishihara</p><p>11. Mechanism of Stator Assembly and Incorporation into the Flagellar Motor<br> Seiji Kojima</p><p>Part III Dynamics of the Bacterial Flagellar Motor</p><p>12. Rotation Measurements of Tethered Cells <br> Yuichi Inoue</p><p>13. Tracking the Movement of a Single Prokaryotic Cell in Extreme Environmental Conditions<br> Masayoshi Nishiyama and Yoshiyuki Arai</p><p>14. Measurements of the Rotation of the Flagellar Motor by Bead Assay<br> Taishi Kasai and Yoshiyuki Sowa</p><p>15. Measurements of Ion-Motive Force Across the Cell Membrane<br> Tsai-Shun Lin, Yi-Ren Sun, and Chien-Jung Lo</p><p>16. Stoichiometry and Turnover of the Stator and Rotor <br> Yusuke V. Morimoto and Tohru Minamino</p><p>17. Direct Imaging of Intracellular Signaling Molecule Responsible for the Bacterial Chemotaxis<br> Hajime Fukuoka</p>Part IV Structural Diversity of the Bacterial Flagellar Motors Derived from Different Bacterial Species<p></p><p>18. In Situ Structural Analysis of the Spirochetal Flagellar Motor by Cryo-Electron Tomography<br> Shiwei Zhu, Zhuan Qin, Juyu Wang, Dustin R. Morado, and Jun Liu</p><p>19. Motility of Spirochetes< Shuichi Nakamura and Md. Shafiqul Islam</p><p>20. Structure of the Sodium-Driven Flagellar Motor in Marine Vibrio <br> Yasuhiro Onoue and Michio Homma</p><p>21. Chemotactic Behaviors of Vibrio Cholerae Cells<br> Ikuro Kawagishi and So-ichiro Nishiyama</p><p>22. Purification of Fla2 Flagella of Rhodobacter sphaeroides<br> Javier de la Mora, Laura Camarena, and Georges Dreyfus</p><p>23. Dynamics in the Dual Fuel Flagellar Motor of Shewanella oneidensis MR-1<br> Susanne Brenzinger and Kai M. Thormann</p><p>24. Ion Selectivity of the Flagellar Motors Derived from the Alkaliphilic Bacillus and Paenibacillus Species<br> Yuka Takahashi and Masahiro Ito</p><p> </p><p>25. Measurement of Free-Swimming Motility and Magnetotactic Behavior of Magnetococcus massalia Strain MO-1<br> Wei-Jia Zhang, Sheng-Da Zhang, and Long-Fei Wu</p>
