|
Protein Crystallography
Newsletter
Volume 1, No. 4, May 2009
In this issue:
|
|
Continuing Education
Webinar
How to collect exceptional diffraction data from your
crystals
Presenter: Dr. Angela Criswell
June 24 at 12:00 PM EDT (16:00 GMT)
Click
here to register
|
CrystalTrak gradient screen (top) and optimization (bottom).
Click through for larger image.
Summer Travel Bursary Application
Rigaku Americas Corporation will award summer travel bursaries
(to be used for travel to a scientific conference) in the
amount of U.S. $500 each to the five (5) post-doctoral fellows
who provide the most compelling explanation as to how they
intend to pursue a career in structural biology. Click
here to apply
|
SURVEY
QUESTION
What software do you use to process your home
lab data?
|
|
( )
|
HKL 2000
|
|
( )
|
d*Trek
|
|
( )
|
MOSFLM
|
|
( )
|
XDS
|
|
( )
|
DPS
|
|
( )
|
Other
|
|
[Submit]
|
|
|
|
|
|
Crystallography in the news
May 21, 2009. Long-awaited structure
of AADase solved:
discovery heralds new approaches to protein-engineered biofuels.
May 22, 2009. A research team, led by Che Alex Ma, an assistant
research fellow at Academia Sinica's Genomics Research Center,
has successfully developed a complete three-dimensional model
structure of an Escherichia
coli membrane protein.
May 20, 2009. European biotechnologists unravel life's big
cellular factories. Prospects for progress obtaining the
structure of important molecular machines involved in critical
cellular activities were discussed at a recent meeting co-organised
by the EUROCORES programme EuroSCOPE
(Science of Protein Production for Functional and Structural
Analysis) of the European Science Foundation (ESF).
CrystalTrak™
- automated crystallization software
A complete relational database
application for crystallization is now available for all labs as
a stand-alone software application: CrystalTrak.
Based on an Oracle® platform, the software tracks all of the
necessary information used in crystallization trials, such as
chemicals, screens, protein samples, images, and annotations.
CrystalTrak simplifies the crystallization process by providing
tools that enable greatly improved productivity, efficient use
of protein samples and the design of reproducable targeted
experiments.
Rigaku CrystalTrak provides simple, graphical tools to easily
design coarse and optimization crystallization screens using an
extensive library of pre-loaded chemicals and commercially
available screens. The built-in database includes information
such as solubility, pKa, CAS, aliases and molecular weight for
thousands of chemicals used in protein crystallization. pH
gradients are automatically calculated using Henderson-Hasselbach
interpolation or pH curves may be imported for complex buffer
systems.
CrystalTrak automatically generates optimization strategies with
a single mouse click, using initial hit conditions to create a
grid of similar conditions around an initial hit (or combine
multiple hits to create a random sparse matrix of conditions).
Based on stock concentrations and buffer pH, all required
dispense volumes are automatically calculated, and formatted
into a printable recipe, for easy hand setup. CrystalTrak also
seamlessly integrates Rigaku crystallization instruments, such
as the Alchemist™
II for producing crystallization matrices, the Minstrel™
series imaging systems, for capturing crystallization images,
and the Phoenix™
RE for the
preparation of crystallization trials, offering labs a complete
end-to-end solution for crystallization.
Request a copy of the CrystalTrak
brochure.
How to
collect exceptional diffraction data
Rigaku
Life Sciences Webinar Series
continues on June 24th with a discussion of the diffraction
experiment in terms of best practices and providing tools both
for identifying diffraction quality samples and for collecting
exceptional data. Hosted by Angela Criswell, Ph.D., this
complementary continuing education seminar is recommended
viewing for students or as a refresher for routine users and
their staff.
Click
here to register.
Useful links
for crystallography
Looking
for a New Job? -
Links to crystallographic jobs around the world, and websites
that maintain links to job openings, are indexed on the protein
crystallographic portal PXuniverse.
The
Global Protein Crystallographic Community
- A directory of links to protein crystallographic laboratories
around the world is being created. Each entry contains contact
information for the PI, a link to the lab website, and photos of
the PI, the research group or a structure of particular
interest. Labs are being added in a random walk approach; if you
would like to have your lab added, please use this submittal
form.
50
Years of Protein Structure Determination
- An in-depth interactive NIH slideshow, with historical
navigation, in Adobe® Flash® format.
Selected
recent crystallographic papers
Re-refinement from deposited
X-ray data can deliver improved models for most PDB entries. R.
P. Joosten, T. Womack, G. Vriend and G. Bricogne. Acta
Cryst. D65, 176-185 (2009).
Nothing about protein structure classification makes sense
except in the light of evolution. Ruben E Valas, Song Yang and
Philip E Bourne. Current
Opinion in Structural Biology 19, 1-6 (2009).
Model-building strategies for low-resolution X-ray
crystallographic data. A. M. Karmali, T. L. Blundell and N.
Furnham. Acta
Cryst. D65, 121-127 (2009).
Combining solution wide-angle X-ray scattering and
crystallography: determination of molecular envelope and
heavy-atom sites. Xinguo Honga and Quan Hao. J.
Appl. Cryst. 42, 259-264 (2009).
Book review:
Elements of Modern X-ray Physics by
Jens Als-Nielsen and Des McMorrow
I was lamenting to Wayne
Hendrickson about the difficulties in sorting out resonance
scattering for a presentation I had given at an ECM because
different authors use different notation for the same
parameters, or worse the same notation for different parameters.
Wayne told me he was using "Elements of Modern X-ray
Physics" by Jens Als-Nielsen and Des McMorrow for his X-ray
diffraction course so I bought a copy. I don't often read
textbooks cover to cover, but the book is well written, and
worth the time and effort.
The book starts with an excellent introduction to X-ray
interactions and sources. Next, refraction and reflection are
discussed. I should point out that the text explains clearly the
relationship between absorption and f" here, useful for
understanding concepts in the last chapter. The next two
chapters are devoted to diffraction. The penultimate chapter
reviews photoelectron absorption and EXAFS.
The final chapter on resonance scattering is a must read for
young macromolecular crystallographers. This chapter provides a
lucid explanation of "anomalous scattering", the phase
problem, the breakdown of Friedel's law and MAD phasing.
Joseph D. Ferrara, Ph.D.
|
