data interpretation Creative Biostructure now can provide a collection of tools and analysis package for biomolecular structure determination, refinement and analysis from crystallographic, EM or NMR data. In structural biology field, in order to reveal a dedicated and reliable structure of biomolecule, research data is acquired, interpreted, published, reused, and sometimes eventually discarded. Creative Biostructure helps the development of appropriate infrastructural services, ones which make it easier and time-saving for researchers to collect, read and process the data and obtain the expected and target structure results.

Project Objectives With this deliverable, the project has reached or the deliverable has contributed to the following objectives, including but not limited to:

Crystallographic data processing and structure determination The physical infrastructure for X-ray crystallography structural biology includes synchrotrons, which are affordable by a nation. There are 47 in the world (lightsources.org). Each synchrotron provides a number of beamlines for experiments, usually including several optimized for macromolecular X-ray crystallography, often some for other structural biology techniques including SAXS (Small-Angle X-Ray Scattering) and CD (Circular Dichroism), and usually some beamlines for material sciences and other non-biological applications. Creative Biostructure has access to the most modern and popularly used synchrotron X-ray resources, such as ALS, SSRL, CAMD, Photon Factory, SSRF, etc. EM data processing and interpretation Improvements in microscopes, direct electron detectors, and processing software have led to a rapid increase in the number of high resolution cryoEM structures – the “resolution revolution”. This has led in turn to significant investments in electron microscopes around the world. Structural biologists in Creative Biostructure are working on harder targets: fewer single proteins, larger macromolecular assemblies, more membrane proteins.