Bookedited by Peter C.E. Moody.
Contents:
Chapter One: Fundamentals of neutron crystallography in structural biology
Chapter Two: Large crystal growth for neutron protein crystallography
Chapter Three: Prospects for membrane protein crystals in NMX
Chapter Four: IMAGINE: The neutron protein crystallography beamline at the high flux isotope reactor
Chapter Five: The macromolecular neutron diffractometer at the spallation neutron source
Chapter Six: Current status and near future plan of neutron protein crystallography at J-PARC
Chapter Seven: Neutron macromolecular crystallography at the European spallation source
Chapter Eight: Dynamic nuclear polarization enhanced neutron crystallography: Amplifying hydrogen in biological crystals
Chapter Nine: Implementation of the riding hydrogen model in CCTBX to support the next generation of X-ray and neutron joint refinement in Phenix
Chapter Ten: Interactive model building in neutron macromolecular crystallography
Chapter Eleven: What are the current limits on determination of protonation state using neutron macromolecular crystallography?
Chapter Twelve: Proton transfer and drug binding details revealed in neutron diffraction studies of wild-type and drug resistant HIV-1 protease
Chapter Thirteen: Neutron crystallographic studies of carbonic anhydrase
Chapter Fourteen: Protein kinase A in the neutron beam: Insights for catalysis from directly observing protons
Chapter Fifteen: Pyridoxal 5′-phosphate dependent reactions: Analyzing the mechanism of aspartate aminotransferase
Chapter Sixteen: The role of hydrogen atoms in redox catalysis by the flavoenzyme cholesterol oxidase
Chapter Seventeen: Heme peroxidase—Trapping intermediates by cryo neutron crystallography.