A favorite resource is Bart Hazes' web page on heavy atom derivatives.
http://homepage.usask.ca/~pag266/bart-hazes.html
Ho
Ho Leung Ng
University of Hawaii at Manoa
Assistant Professor, Department of Chemistry
h...@hawaii.edu
Hi John,
Another way to screen for mercury derivatives.
Rachelle
vincent Chaptal wrote:
Hi Rhys,
you already have a lot of suggestions to try. We all have our own reciepe for
good derivatization, and this is due to the fact that we don't really
understand what is going on. I can't explain
Hi Rhys,
It's worth paying close attention to your crystallisation conditions as
well - some heavy atom compounds will not be at all soluble in very
alkaline (they'll form insoluble hydroxides) or phosphate/sulphate
containing mother liquors.
A very low pH may reduce the binding efficiency of som
Hi All,
A truly herculean response! Thanks everyone, I will process all of the
information and come up with a strategy.
Rhys
Hi Rhys,
you already have a lot of suggestions to try. We all have our own
reciepe for good derivatization, and this is due to the fact that we
don't really understand what is going on. I can't explain why one HA
binds to my protein while the other one doesn't, but I can visualize it
and henc
letin board [mailto:CCP4BB@JISCMAIL.AC.UK] On Behalf Of Santosh
Panjikar
Sent: 16 January 2014 01:55
To: ccp4bb
Subject: Re: [ccp4bb] Best compounds for heavy atom soaks
Dear Rhys,
You may consider Xenon derivative, which could be prepared simply pressurizing
the protein crystals in a xenon chambe
You may be missing a trick by not using metals as crystallisation additives if
your best
diffraction is only 3.5 Angstroms. Uranium has to be my favourite heavy metal,
even if
I've solved more structures with Pt and Hg. It gave crystals diffracting to 1.2
A from a
protein that otherwise gave no
Dear Rhys,
You may consider Xenon derivative, which could be prepared simply pressurizing
the protein crystals in a xenon chamber. It does not require any modification
of mother liquor. It just needs cryo-protectant where crystals are stable for
at least one to two mins. Higher Pressure (20 to
Hello Rhys Grinter, hello to the ccp4bb community,
I don't necessarily want to advertise here one of the major research
topic of Eric Girard and late Richard Kahn lab (my previous lab ;-) ) but...
You could maybe try lanthanide complexes ?
They are composed by a chemical ligand, which can prov
Did anybody mention native gel electrophoresis to select suitable HA ions?
Worked for us really nicely in a situation were speed was essential.
Here's a reference: PMID 14646083
Klaus
===
Dr. Klaus Fütterer
Room 717, Biosci
Hi Rhys -
Don't forget to try sulfur-SAD, especially the multi-crystal version
published recently:
http://journals.iucr.org/d/issues/2013/07/00/ba5189/index.html
This seems well suited to your situation.
- Matt
On 1/15/14 12:18 PM, RHYS GRINTER wrote:
Hello message board,
My group has so
Also, if you have a sample changer for easy screening, try 1 mM, 5 mM 20 mM of
each
for 1h, 5h, overnight, and screen all ~60 crystals for diffraction
overnight.Send those that survive
to the synchrotron.
K
On 15 Jan 2014, at 17:18, RHYS GRINTER wrote:
> Hello message board,
>
> My group ha
Keith's favourites over many years (shared with Gideon):
K2PtCl4
K2PtCN4
KAu(CN)2
Ethyl Mercury Thiosalicylate (gentle Hg reagent)
Try for about 2-12 hours at 1 mM initially. If crystals crack, reduce
concentration - at least they bind!
If these don't work, then finding a derivative is prob
Dear Rhys,
an important addendum to the magic triangle is the fact that it gives
you direct evidence whether or not the substructure search has succeeded
(by locating the triangle in the substructure solution) so that you can
carry on with phasing via density modification. At 3.5A resolution this
Hi
do not forget the clusters like Ta6Br12 or the lanthanides.
in case your interesting protein is a membrane protein there are some
choices that might work better than other
we have described it here.
http://www.ncbi.nlm.nih.gov/pubmed/16855303
This is not exclusive to membrane proteins at all.
On Jan 15, 2014, at 10:27 AM, Jim Pflugrath wrote:
>
> Quiz time: What wavelength would give iodide a similar signal to that of
> selenium? Can one get a better signal than selenium by choosing a different
> wavelength for data collection?
I'll bite,
At ~11,000eV Iodine has about 3.8 anoma
, 2014 11:18 AM
To: CCP4BB@JISCMAIL.AC.UK
Subject: [ccp4bb] Best compounds for heavy atom soaks
Hello message board,
My group has some crystals of an interesting protein to take to the synchrotron
in a couple of weeks. We won't be able to prepare and crystallise a SelMet
derivative during that
More references to consider…
You asked about soaking times - here are two articles advocating quick soaking
at relatively high heavy atom concentration, which has worked well for us.
We've had good luck with thimerosal.
Acta Crystallogr D Biol Crystallogr. 2002 Jul;58(Pt 7):1099-103. Epub 2002
There is quite a bit of literature on this, but my favorite paper is this:
http://www.ncbi.nlm.nih.gov/pubmed/18391402
Towards a rational approach for heavy-atom derivative screening in
protein crystallography.
Spoiler: The overall winner is ethyl mercury phosphate (Figure 7). Of
course, chem
.
HTH and GL, Bert
From: CCP4 bulletin board [CCP4BB@JISCMAIL.AC.UK] on behalf of RHYS GRINTER
[r.grinte...@research.gla.ac.uk]
Sent: Wednesday, January 15, 2014 5:18 PM
To: CCP4BB@JISCMAIL.AC.UK
Subject: [ccp4bb] Best compounds for heavy atom soaks
Hello
free cysteines? - pCMB
phosphate-binding? - tungstate
Best,
Matthias
-
Dr. Matthias Zebisch
Division of Structural Biology,
Wellcome Trust Centre for Human Genetics,
University of Oxford,
Roosevelt Drive,
Oxford OX3 7BN, UK
Phone (+44) 1865 287549;
Fax (
Hello message board,
My group has some crystals of an interesting protein to take to the synchrotron
in a couple of weeks. We won't be able to prepare and crystallise a SelMet
derivative during that time period, but we have loads of crystals sitting
around. The diffraction isn't great, we see m
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