You need to tell us the spacegroup for us to be very helpful...
And I often find the molrep plots less useful than the list of peaks and
all the symmetry equivalents..
(It has a weird name - *rf or *doc I think)
But I guess all the variant are in point group P222? There are the 3
expected 2 folds on the Chi=180 section plus one other which is presumed
an non-crystallographic 2 fold
Then there seems to be a non-cryst 4 fold showing up on the section chi=90
However that doesnt tell you whether your 4 molecules are arranged as a
tetramer or as 2 dimers.Do you have a model and if so does that form a
multimer?
In fact if you have a model it is usually simpler to solve the MR then
use the self-rotation as verification of your solution.
The program PISA, available at the ebi
http://www.ebi.ac.uk/msd-srv/prot_int/pistart.html
or from CCP4 will analyse a structure and suggest what multimer is most
likely. Then you can see if the suggested non-cryst of the solution
agrees with the self rotation function..
The project B one is more interesting - again one needs to know the
space group but there are obviously 8 2 folds - try plotting the chi =
45 section or looking at the list of peaks, and you should see a strong
8 fold axis..
Eleanor
Paul Lindblom wrote:
> Hello everyone,
>
> I have a little problem concerning the self rotation function. I hope I´m
> not asking to much, but I am not sure how to interprete the images I get
> from the calculation with molrep.
> I calculated the self rotation map for 4 variants with each 4 molecules in
> the ASU and one map for another project (most likely 8 molecules/ASU) I see
> the peaks, but how do I see, if there is NCS? The images are attached.
> Thanks a lot,
>
> P.
>
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