Dear Praveen,
As said, Biacore3000 is not the best for small molecules, but in some case you
can do nice things with this system. I see 3 possibilities :
- You can immobilize your molecules on the chip if you have an amine on it
which is supposed to not participate to the interaction.
- You can
Please have a look at the very elaborated/detailed discussion by Martin
Chaplin on chaotropes and kosmotropes
http://www1.lsbu.ac.uk/water/kosmotropes_chaotropes.html
and on the Hofmeister series
http://www1.lsbu.ac.uk/water/hofmeister_series.html
and *note the diference* in the way the ions
Hi Praveen,
The BiaCore 3000 is an older model, and is not optimised for protein/small
molecule interactions. The BiaCore T-100 and T-200 have enhanced
sensitivity and are better suited small molecules (assuming you have to use
SPR).
As for chip choice, it depends an awful lot on the behaviour of
Dear all,
Sorry for off-topic question.
I want to study protein interaction with few small molecules using SPR
(Machine- *BIACORE 3000*).
The recombinant protein expressed in bacterial expression system is of 92
kDa (with His tag), pI= 9.
*Question-*
1. What should be the chip of choice- *NTA chi
Hi All,
I summarized my Coot and Pymol 3D experience here. Monitor is from Asus 24
or 27 inch 3D monitor. Monitor works with Nvidia 3D kit. Refresh rate set
120 HZ. Please first download and install Nvidia 3D kit driver and Asus
monitor driver and install first when working with Windows 7 or 10 (y
On 03/30/2017 08:10 AM, mesters wrote:
If the pI of the protein is below the pH of the buffer (net negatively charged
protein), optimum stabilization (salting out; lower solubility) of the
macromolecule is achieved by combining a kosmotropic anion with a chaotropic
cation, e.g. Ammoniumsulfate
Hi Shubhangi,
As Edward suggested, you can try with N-terminal
His tag. For this you can either clone in N-terminal His tagged based
vectors or by site directed insertion of 18 nucleotides coding for 6 His at
the N-terminus region.
But, before that, I suggest
Hi, Shubhangi,
One possibility is that the his-tag could be non-accessible. Have you tried
moving to the tag to the other end of the protein (N vs C)? Another thing that
worked for me for a past project is using a small amount (1-2M) of urea for the
IMAC step and then dialyzing away the urea
Hello
I have a 10kda histidine kinase domain protein with a pI of 9.5.
It has a C-term his tag and despite using different buffers the protein
doesnt bind to the nickel cloumn. it comes out in the flow trhough.
Buffers used- 50mM tris Ph=8, 300mM NaCl
50mM tris Ph=7, 300mM N
On 30/03/17 14:59, chemocev marker wrote:
Hi
Hi.
I have model of ligand molecule and it does not open in coot. Its not
a crystal structure. I can view it in the pymol or chimera but not in
the coot. It gives error that it does not have any space group
information. Is there is a way to open
Yes, I once spent quite a bit of time engineering mutations into my target to
improve solubility to exclude detergent from the purification to improve
crystal growth and diffraction:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2374227/
If you think buffer conditions hold the key to your solubi
Hi
I have model of ligand molecule and it does not open in coot. Its not a
crystal structure. I can view it in the pymol or chimera but not in the
coot. It gives error that it does not have any space group information. Is
there is a way to open it in coot.
best
Jiri
Hi Akila,
I'm curious about your choice of pET22b. If you cut out the signal peptide
that comes with the vector and express your protein in the cytoplasm, then
what I am about to say doesn't apply. However, if you are exporting the
protein into the periplasm, have you considered doing osmotic shock
If the pI of the protein is below the pH of the buffer (net negatively
charged protein), optimum stabilization (salting out; lower solubility)
of the macromolecule is achieved by combining a kosmotropic anion with a
chaotropic cation, e.g. Ammoniumsulfate (most successful salt)!
/For your pI 9
If I remember correctly, Triton X-100 (or any other surfactant for that matter)
is a bad idea for protein intended for crystallography. I can't remember the
paper, but I'm sure I read that somebody showed it's basically impossible to
remove all of the surfactant molecules from the protein no mat
This case is encouraging to me that a structure can be solved with such
high mosaicity (in your report is 1.9). I wonder how the diffraction looks
like (I imagine spots smearing or streak). With such high mosaicity, the
unit cell dimension and space group determination is highly likely not
accurate
I personally like TRIS for the first few steps of purification and then change
to something else during my last dialysis step. I mostly work with bacteria and
they often produce lysates that have pH's that are too acidic for good nickel
affinity chromatography, which is why I use 100 mM TRIS pH
Darn it, you're right.
JPK
-Original Message-
From: CCP4 bulletin board [mailto:CCP4BB@JISCMAIL.AC.UK] On Behalf Of Hughes,
Jon
Sent: Thursday, March 30, 2017 4:05 AM
To: CCP4BB@JISCMAIL.AC.UK
Subject: [ccp4bb] AW: [ccp4bb] [ccp4bb] protein precipitation reg
yes, "oil of vitriol" is sul
Dear All,
I would like to draw your attention to the career reintegration program at
the Paul Scherrer Institute, Switzerland. The goal of the program is to
restart the academic careers of scientists (Masters or postdoc)
interrupted due to the family reasons, for example by having children or
reloc
yes - really, tris should be the buffer of last resort rather than the
standard. its only general advantages would seem to be that it's cheap and not
very toxic.
j
--
Professor Jon Hughes, BSc, PhD
Institute for Plant Physiology
Justus Liebig University, Giessen
Zeughaus, Rm. 341
Senckenbergstr
yes, "oil of vitriol" is sulphuric acid, "blue vitriol" is copper II sulphate
as i recall.
j
-Ursprüngliche Nachricht-
Von: CCP4 bulletin board [mailto:CCP4BB@JISCMAIL.AC.UK] Im Auftrag von CRAIG A
BINGMAN
Gesendet: Donnerstag, 30. März 2017 05:52
An: CCP4BB@JISCMAIL.AC.UK
Betreff: Re:
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