-resolved
crystallography, time-resolved cryo-EM, serial crystallography, and
small-angle X-ray scattering of biomolecular systems. This project is under
the supervision of Physics Prof. Robert Thorne (who is the founder of
MiTeGen, LLC). Examples of the kind of work involved are described in
IUCrJ 8
crystallography and cryo-electron microscopy. MiTeGen grew out of studies by
the group of Prof. Robert Thorne at Cornell University on biological, chemical,
and materials physics problems relevant in probing and understanding
biomolecular structure and function, and their past and ongoing efforts to
biomolecules, and in the development of
experimental methods for cryo-electron microscopy. The group of Prof.
Robert Thorne at Cornell University studies a variety of biological physics
problems relevant in probing and understanding biomolecular structure and
function, and develops new methods for synchrotron
*Postdoctoral Associate Position at Cornell University in Biomolecular
Small-Angle X-ray Scattering and X-ray Crystallography*
One or two postdoctoral positions are available in small-angle x-ray
scattering and x-ray crystallography of biomolecules in the group of Prof.
Robert Thorne in the
group of Prof. Robert Thorne in the Physics Department at Cornell
University. The focus of the work will be on developing and applying
methods for high-throughput cryogenic temperature SAXS and for
high-throughput variable temperature crystallography. The work will
involve CAD design, microfabrication
A postdoctoral position is available in the Physics Department at Cornell
University. The position will focus on experimental and computational
methods development to exploit the wealth of additional information about
protein structure, function and energy landscapes that may be available via
vari
Dear CCP4 Community,
We are trying to find protein or virus crystals that diffract to reasonably
high resolution (2.5 Angstroms or better) and that are very radiation
sensitive at room temperature. "Very radiation sensitive" in this case
means that the diffraction dies after a few frames, for cry
