Hi Patrick,
RMSD is a poor measure in this case as it does not account for
B-factors, occupancies, alternative conformations and so on
information a crystal structure model may make available.
Macromolecules are not a bunch of points in space.
While I'm sure more thorough methods exist, I would vote for the
simplest, most direct and obvious one. You can calculate electron
density map using a Gaussian approximation from model A and B (yes,
electron density map - not a Fourier image of it!). That will
naturally account for all: B-factors, occupancies, other disorder.
Then you can calculate a map similarity measure, such as map
correlation, for instance. After all, why use a cannon to kill a
fly?!
If you are interested to follow this route I can explain the
details.
All the best,
Pavel
Hi Phenix users,
I am not a crystallographer but I though you guys might be a
good place to ask this question.
I have 2 super secondary structures, A and B and they consist
of Helix-turn-Strand
Due to the turn the two structures have a poor RMSD because
the two flanking fragments of Helix and Strand are far from each
other but when I superimpose the two fragments
individually(helixA with helix B and standA with strandB in
Pymol they align very well).
Now, is there a way to express this instead of using the
RMSD?
When the two structures align well the RMSD is very good but
a slight movement and the RMSD is awful.
But looking at the two structures I can see they follow the
same path through space.
Thank you,
Patrick
