If the problem is B-factor refinement, you can do that easily at low resolution with CNS. You just give tight restraints.
You modify the file bindividual.inp
This section:
{* target sigma values for restrained B-factor refinement *}
{* mainchain bonds *}
{===>} bsig_main=1.5;
{* mainchain angles *}
{===>} asig_main=2.0;
{* sidechain bonds *}
{===>} bsig_side=2.0;
{* sidechain angles *}
{===>} asig_side=2.5;
I cannot remember in which direction the values have to go. I think up. I have done this with a very low resolution structures (4.5 A?) a few years ago, you get smoothly varying B values, very tightly restrained. I do not think we published that structure, we obtained a higher resolution structure later (I don't think the referees would have been very happy seeing B factor refinement at low resolution). But it worked.
Fred.
> Message du 01/12/09 23:51
> De : "Jason C Porta"
> A : [log in to unmask]
> Copie à :
> Objet : Re: [ccp4bb] Refining residues as rigid bodies
>
>
>Basically my reasoning for doing this is a low data-to-parameter ratio, which makes B-factor refinement unfeasible. So far I have had nice results with breaking the complex into rigid subdomains. So i was basically just thinking of a way I could refine the structure best, without using too many parameters.
I see now how this can be done in Phenix. I will give it a try.
Thanks for all of your suggestions!
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