At the time of writing (10 May 2023) we have the following colleagues from Japan who will participate with titles of contributions where we have them:
- Tetsuo Katayama (Japan Synchrotron Radiation Research Institute) “Instrumental development and data analysis of X-ray emission spectroscopy supporting SFX at SACLA”
- Tetsunari Kimura (Kobe University) “Development of the microfluidic mixer for time-resolved SFX and spectroscopy”
- Minoru Kubo (University of Hyogo) “Time resolved spectroscopy for monitoring the protein dynamics in microcrystals”
- Hiroaki Matsuura (RIKEN) “Elucidating structural polymorphs from multiple diffraction datasets using hierarchical clustering”
- Hitomi Sawai (Nagasaki University) “Food for thought: the protein interactions for dietary iron absorption in humans”
- Yoshitsugu Shiro (University of Hyogo)
- Michihiro Suga (Okayama University)
- Hiroshi Sugimoto (SACLA Spring-8/RIKEN) “Dynamics of hydrogen atom revealed by ultra-high resolution structure of the heme acquisition protein”
- Takehiko Tosha (University of Hyogo) “Characterization of the short-lived reaction intermediate of NO reductase with caged substrate”
Speakers from Europe we currently have confirmed:
- Pierre Aller (XFEL Hub at Diamond Light Source)
- Philip Ash (University of Leicester)
- Thomas Barends (MPI-IMF Heidelberg)
- James Beilsten- Edmands (Diamond Light Source) “Processing serial diffraction data with DIALS & xia2”
- Katerina Dörner (European XFEL) “Sample delivery for time-resolved studies of biological systems at European XFEL”
- Emily Freeman (University of Oxford) “Time-resolved macromolecular crystallography studies of AmpC from Escherichia coli using synchrotron and XFEL radiation”.
- Marcus Gallagher-Jones (Rosalind Franklin Institute)
- Mike Hough (Diamond Light Source)
- Allen Orville (XFEL Hub at Diamond Light Source)
- Robin Owen (Diamond Light Source) “Efficient sample delivery for time resolved SSX and SFX” (TBC)
- Patrick Shaw Stewart (Douglas Instruments) “Preparing crystal samples for serial data collection and microED: using microseeding and phase diagrams with microbatch-under-oil”
- Jack Stubbs (University of Southampton and Diamond Light Source) “Size matters: Microfluidics for defining protein crystal dimensions and rapid micromixing for time-resolved serial crystallography”
- Ivo Tews (University of Southampton) “Using an XFEL pump prob approach to reveal the Fe(III)->Fe(II) transition in the cyanobacteria FutA iron binding protein”
- Thomas Ursby (MAX IV Laboratory) “Serial Crystallography at MicroMAX – Flexibility offering new possibilities”
- Briony Yorke (University of Leeds) “Developing multiplexing methods for time-resolved crystallographic experiments”