Neutron Crystallography in Structural Biology

<p>1. Fundamentals of neutron crystallography in structural biology<br>John R. Helliwell<br>2. Large crystal growth for neutron protein crystallography<br>Monika Budayova-Spano, Katarina Koruza and Zoë Fisher<br>3. Prospects for membrane protein crystals in NMX<br>Samuel John Hjorth-Jensen, Esko Oksanen, Poul Nissen and Thomas Lykke-Møller Sørensen<br>4. IMAGINE: The neutron protein crystallography beamline at the high flux isotope reactor<br>Flora Meilleur, Andrey Kovalevsky and Dean A.A. Myles<br>5. The macromolecular neutron diffractometer at the spallation neutron source<br>Leighton Coates and Brendan Sullivan<br>6. Current status and near future plan of neutron protein crystallography at J-PARC<br>Ichiro Tanaka, Toshiyuki Chatake, Satoru Fujiwara, Takaaki Hosoya, Katsuhiro Kusaka, Nobuo Niimura, Taro Yamada and Naomine Yano<br>7. Neutron macromolecular crystallography at the European spallation source<br>Márton Markó, Gergely Nagy, Giuseppe Aprigliano and Esko Oksanen<br>8. Dynamic nuclear polarization enhanced neutron crystallography: Amplifying hydrogen in biological crystals<br>Joshua Pierce, Matthew J. Cuneo, Ann Jennings, Le Li, Flora Meilleur, Jinkui Zang and Dean A.A. Myles<br>9. Implementation of the riding hydrogen model in CCTBX to support the next generation of X-ray and neutron joint refinement in Phenix<br>Dorothee Liebschner, Pavel V. Afonine, Alexandre G. Urzhumtsev and Paul D. Adams<br>10. Interactive model building in neutron macromolecular crystallography<br>Derek T. Logan<br>11. What are the current limits on determination of protonation state using neutron macromolecular crystallography?<br>Dorothee Liebschner, Pavel V. Afonine, Nigel W. Moriarty and Paul D. Adams<br>12. Proton transfer and drug binding details revealed in neutron diffraction studies of wild-type and drug resistant HIV-1 protease<br>Andrey Kovalevsky, Oksana Gerlits, Kaira Beltran, Kevin Weiss, David A. Keen, Matthew P. Blakeley, John M. Louis and Irene T. Weber<br>13. Neutron crystallographic studies of carbonic anhydrase<br>Jacob E. Combs, Jacob T. Andring and Robert McKenna<br>14. Protein kinase A in the neutron beam: Insights for catalysis from directly observing protons<br>Oksana Gerlits, Kevin L. Weiss, Matthew P. Blakeley, Gianluigi Veglia, Susan S. Taylor and <br>Andrey Kovalevsky<br>15. Pyridoxal 5’ phosphate dependent reactions: Analyzing the mechanism of　aspartate amino transferase<br>Timothy C. Mueser, Victoria Drago, Andrey Kovalevsky and Steven Dajnowicz<br>16. The role of hydrogen atoms in redox catalysis by the flavoenzyme cholesterol oxidase<br>Tatiana Kerber and Alice Vrielink<br>17. Heme peroxidase - Trapping intermediates by cryo neutron crystallography<br>Hanna Kwon, Tobias E. Schrader, Andreas Ostermann, Matthew P. Blakeley, Emma L, Raven and Peter C. E. Moody</p>