AdaptoCell for users at MAX IV
The main goal of AdaptoCell is to design, develop and provide a microfluidic flow-cell platform, for MAX IV Laboratory users.
Summary of the project:
A deeper understanding of in vivo dynamics, the specific functions of proteins and their interactions is a pathway to greater insights into the progression and prevention of diseases. To push the frontier of this research area, researchers now need new and improved analytical tools and techniques. The Swedish-funded synchrotron facility, MAX IV Laboratory, enables time-resolved in situ studies of proteins by X-ray Absorption/Emission Spectroscopy (XAS/XES), Small Angle X-ray Scattering (SAXS), and Serial Synchrotron crystallography (SSX) at state of the art beamlines: Balder, CoSAXS and MicroMAX, respectively.
The main goal of AdaptoCell is to design, develop and provide a microfluidic flow-cell platform, for MAX IV Laboratory users. This platform is adapted to each X-ray investigation method and deployed to investigate proteins in solution and to facilitate serial crystallography using microcrystals. This ambitious goal relies on a multi-disciplinary and multi-institutional approach which is performed by MAX IV Laboratory, Lund University, Halmstad University and Uppsala University.
Ross Friel of Halmstad University has expertise in new production techniques, embedded systems and non-traditional microfluidic devices, which are the main areas they contribute to in this project.
January 1, 2019, to December 31, 2021
The Swedish Foundation for Strategic Research
The project is led by Lund University (MAX IV Laboratory) with Halmstad University and Uppsala University. Project leader is Kajsa Sigfridsson Clauss from Lund University/MAX IV Laboratory.
The specific people involved are:
- Kajsa Sigfridsson Clauss, MAX IV Laboratory, Lund University
- Ross Friel, ITE, Halmstad University
- Laurent Barbe, SciLifeLab, Uppsala University
- Ann Terry, MAX IV Laboratory, Lund University
- Dörthe Haase, MAX IV Laboratory, Lund University
- Pushparani Micheal Raj, MAX IV Laboratory, Lund University
- Yang Chen, MAX IV Laboratory, Lund University