Hi Oliver, something I'm not quite sure I understand.. if you can see the ligand in the difference map you should be able to see it in the original experimental map too (at appropriate contour level). It's different from crystallography, I think. In crystallography we almost always use model phases to compute usual maps, meaning we have to deal with model bias and other artifacts. In cryo-EM the reconstructed map is your primary data for atomic modeling. If there is signal you should be able to see it in this map. Pavel On 3/15/16 12:03, Oliver Clarke wrote:
Hi Pavel, Thanks! Such maps can definitely be helpful, I calculate them quite often - to identify bound ligands it is certainly helpful, or to highlight regions of the model that have poor fit to the map, similar to their use in crystallography.
Cheers, Oliver.
On Tue, Mar 15, 2016 at 12:47 PM, Pavel Afonine
mailto:[email protected]> wrote: Hi Oliver,
why not.. I think we can compute map from model and then subtract it from the experimental input map (after scaling them somehow).
No I did not have that plan because it wasn't clear to me how such map can be helpful (especially since we don't do best possible job on B factor refinement).
I will add this option.
Pavel
On 3/15/16 10:25, Oliver Clarke wrote:
Hello,
is there any possibility of (or current plan for) including the capacity in a future PHENIX release to calculate a residual map automatically after phenix.real_space refine, (i.e. simulating a map from the model incorporating corrections for B-factor variation and calculating a difference map with the experimental map)? This would be very convenient when building into EM maps.
Cheers, Oli