4 bulletin board on behalf of Jacob Keller
Sent: Mon 8/27/2007 10:44 AM
To: CCP4BB@JISCMAIL.AC.UK
Subject: [ccp4bb] Strange diffraction images
What a beautiful and interesting diffraction pattern!
To me, it seems that there is a blurred set of spots with different
cell dimensions, although
near
: [ccp4bb] Strange diffraction images
I have a case that is similar to this, or at least visually similar by
diffraction pattern(ie. strong/weak intensities). I think my situation is due
to a pseudo-translation. I say this my defining of pseudo translation as
basically
1079-1090.
Boaz
- Original Message -
From: "George M. Sheldrick" <[EMAIL PROTECTED]>
Date: Monday, August 27, 2007 18:49
Subject: Re: [ccp4bb] Strange diffraction images
To: CCP4BB@JISCMAIL.AC.UK
> Some small molecule crystallographers have specialized in
&g
I think if there had been a case of a protein quasicrystal, it would have made
the cover of Nature
Here are some papers about quasicrystals:
1: Proc Natl Acad Sci U S A. 1996 Dec 10;93(25):14267-70.
New perspectives on forbidden symmetries, quasicrystals, and Penrose
tilings.
Stein
I believe Wayne Hendrickson's lab has had such a case with a 10-fold
symmetric mollusc hemocyanin crystal. This must have been in the early
90's and to my knowlwedge they were never able to solve the structure
even though it diffracted beyond 2 Anstrom.
I'm not sure if this work has been publi
> As a side note, Xtriage
> doesn't think things are twinned as was suggested for one some of the other
> diffraction patterns discussed earlier today.
Hi Todd,
Detection of twinning in the presence of pseudo translations / and or
NCS parallel to the twin law is difficult and using model based
te
The left-out spots would be the diffuse spots, which I assume were not
indexed/integrated. The
sharp spots were presumably used to solve the structure.
JPK
==Original message text===
On Mon, 27 Aug 2007 11:36:08 am CDT Raji Edayathumangalam wrote:
Very dumb question per
Very dumb question perhaps:
If there were two interpenetrating lattices of slightly different cell
dimensions, would we not
expect that the indexing program would leave out a lot of the spots as
"unpredicted" or "uncovered"?
Could someone clarify with respect to the diffraction pattern that has
Apologies, part of my previous message was missing and part
appeared twice. Here is another try:
Jacob,
Some small molecule crystallographers have specialized in solving and
refining structures that, exactly as you describe it, consist of two
interpenetrating, non-commensurate lattices. The usua
I am still eagerly awaiting a biomacromolecular quasicrystal with a five-fold
symmetric diffraction
pattern. It seems that this is entirely possible, if one gets roughly
Penrose-tile shaped oligomers
somehow. But wow, how would you solve that thing? I guess one would have to
modify software fr
Some small molecule crystallographers have specialized in solving and
refining structures that, exactly as you describe it, consist of two (or
more) interpenetrating, non-commensurable lattices. The usual approach is
to decribe the crystal in up to six dimensional space. The programs SAINT
and
What a beautiful and interesting diffraction pattern!
To me, it seems that there is a blurred set of spots with different cell
dimensions, although
nearly the same, underlying the ordered diffraction pattern. A possible
interpretation occurred to
me, that the ordered part of the crystal is suppo
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