For those who want to riddle it out (and as structural biologists hopefully
don’t come across mirror and glide planes) a ppt where you can
take the International Tables and superimpose the tetragonal PG diagrams on
the Kaleidoscope. Find the unit cell first, and then ferret out the rest.
Looks like no. 12 p4g to me:
http://www2.clarku.edu/faculty/djoyce/wallpaper/wall12.html
Happy New Year.
On Sat, 1 Jan 2022 at 20:52, Bernhard Rupp wrote:
> ..and which one of the 17 plane groups do we see here?
>
> Cherrs br
>
> On Sat, Jan 1, 2022, 12:47 Phoebe A. Rice wrote:
>
>> Apologies
Dear Dhiraj,
I believe the solution is using combination of our dnatco.datmos.org
description of nucleic acid conformations (so called NtC) and the MMB
(MacroMoleculeBuilder, the github version implements NtC modeling). Contact me
if you need more details.
best,
JC
On 01. 01. 22 18:38,
Thank for the suggestion.
I think I should have been more specific about the problem. The promoter has
binding site for two different transcription factors which interacts with each
other to affect the transcription in spatiotemporal manner. I solved the
structure of one protein (not deposited
I would try the tools on this site - http://web.x3dna.org/index.php/protein
From: CCP4 bulletin board on behalf of "Srivastava,
Dhiraj"
Reply-To: "Srivastava, Dhiraj"
Date: Monday, December 27, 2021 at 8:32 PM
To: "CCP4BB@JISCMAIL.AC.UK"
Subject: [ccp4bb] protein DNA complex structure and
