, experience in image data analysis
and/or
simulation/modeling of protein structures will be an advantage.
If you are interested please send your application including CV and names of
three
references by email to Gunnar Schroeder (gu.schroe...@fz-juelich.de
Hi Rob,
This also means that the position of the minima of the target function
are not changed by the DEN (gamma=1) restraints.
I would have thought that changing the value and gradient of the
target function had the potential to alter the minima?
Indeed, the target function is changed
Hi Rob,
thank you, your comments helped a lot.
From the Refmac5 paper I did not get the fact that d is set to d_current
after each step. In that case you are right, jelly-body corresponds rather to
DEN with gamma=1 than to gamma=0.
And of course, a very important difference is, as you
Just a quick comment on low resolution refinement:
The concept of Deformable Elastic Network (DEN) refinement
is quite similar to jelly-body refinement in the special case of
gamma=0, for which the network is not deformable.
In contrast to jelly-body refinement, the DEN restraints are
however
that the text is in german):
http://www.uni-duesseldorf.de/home/fileadmin/redaktion/ZUV/Dezernat_3/Stellenausschreibungen/Doku_Professoren/08B1131.pdf
Deadline for application is April 14, 2011.
Thanks,
Gunnar Schroeder
to the Netherlands and Belgium. The center
offers excellent
computational resources: Europe's first petaflop supercomputer
Jugene is now operational.
Please send your application to:
Gunnar Schroeder
Computational Structural Biology Group
Institute for Structural Biology
