ition, 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-jueli
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 chan
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 said,
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 a
y the fact 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
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 Structu
