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PROTEIN DATA BANK QUARTERLY NEWSLETTER
Release #82 - October 1997
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INTERNET SITES

WWW.....http://www.pdb.bnl.gov
FTP.....ftp.pdb.bnl.gov

------------------------------------------------------------------------
October 1997 CD-ROM Release

                  6514 Released Atomic Coordinate Entries 

                           Molecule Type 

                       5762 proteins, peptides, and viruses
                        253 protein/nucleic acid complexes
                        487 nucleic acids
                         12 carbohydrates

                           Experimental Technique

                        163 theoretical modeling
                       1020 NMR
                       5331 diffraction and other

                       1468 Structure Factor Files
                        355 NMR Restraint Files
                                 
The total size of the atomic coordinate entry
database is 2.8 GB uncompressed.

------------------------------------------------------------------------

Table of Contents

What's New at the PDB 

Archive Management 

PDB Computer Services 

BMRB - PDB Collaboration Update 

BNL Contract Up for Bid 

Staff News 

PDBObs: The Obsolete Structures Database 
has Been Upgraded

RELIBase: A Database of Receptor/Ligand Complexes 

HIC-Up: Dealing with Hetero-Compounds 

SBNet: The Swedish Structural Biology Network 

Two New Programs for Accessing the PDB 

Notes of a Protein Crystallographer 

  --The Lunar Element and our Collective MADness

Web Sites Referenced in the October 1997 
  PDB Newsletter

Affiliated Centers and Mirror Sites 

Related WWW Sites 

PDB Order Form 

PDB Access, FTP Directory Structure, 
  Consultants, Staff, Support and Instructions to Authors

------------------------------------------------------------------------

What's New at the PDB
	-- Joel L. Sussman

There has been an incredibly rapid increase in the rate of determination of
3D structures of biomacromolecules, as reflected by a new structure being
deposited at the PDB, on average, every five hours. Accompanying this growth
in structure deposition is an increasing proportion of depositors who are
taking advantage of the PDB policy to allow structures to be kept `on hold'
up to a year after coordinate deposition. We feel it is now time to
reconsider whether such a policy is still appropriate.

PDB's release policy currently states that:

	"...coordinates may be held (before release) no longer than one (1)
	year and structure factors [and NMR restraint data] may be held no
	longer than four (4) years from the date of publication... Requests
	that the PDB delay release of your data (put it on hold) should be
	submitted at the time of the initial deposition."

This policy is based on rules drawn up by the International Union of
Crystallography (IUCr) in the late 1980's, for papers published in IUCr
journals, which is also the basis of the policies of most other scientific
journals and of a number of government funding agencies for work undertaken
on grants.

We at the PDB constantly have people contacting us to ask why a particular
structure is not yet available. Many depositors themselves have been
confronted by the inherent difficulties of describing 3D concepts in the
limitation of words and pictures on a 2D page. Being able to interactively
view the molecule in three dimensions greatly enhances a reader's
comprehension and appreciation of the accomplishment of a newly determined
structure.

Alexander Wlodower recently argued that reasons given for putting
coordinates `on hold' were largely outdated and irrelevant (Nat. Struc.
Biol. 4, 173-174, 1997), giving clear examples of how the availability of
coordinates has been of benefit to all. Wlodower concluded:

	" ...early distribution of the coordinates, even to competing
	laboratories, has led to great acceleration of investigations and
	ultimately benefited the original team."

We are suggesting that the `on hold' option be limited until the date of
publication, bringing the structural biology community in line with almost
every other discipline in having to give free and immediate access to the
data which they are using to support their claims.

We would greatly appreciate comments from the scientific community on this
suggested change in policy, and look forward to implementing it as soon as
possible.

------------------------------------------------------------------------

Archive Management
	-- Enrique Abola and Nancy Manning

-- Proposed Mandatory Items

In August, the PDB released a list of proposed mandatory items
(http://www.pdb.bnl.gov), data items that will be required from depositors
before a PDB ID code can be issued. The list was assembled to implement a
fast track release of data using a layered approach. What we outline are
those items that we believe are necessary to minimally describe an entry.
The list specifies the data items and does not address issues related to
implementation or data validation, and it also does not specify expected
value (or value ranges) for these data items. These details are being worked
out, and the PDB encourages your comments on this issue.

We are currently developing new protocols and policies to allow us to
release and load entries on our server by an automatic procedure. This fast
track release will depend on what we call a layered approach in which data
are released within a day of submission and are subsequently updated after
standardization (e.g., making data representation consistent with other
entries) by PDB staff with assistance from the depositors.

In the layered approach, a PDB ID code will be issued only after a depositor
gives approval to release immediately his/her entry. In the case of data on
hold, depositors will receive a PDB ID code only after agreeing to the
release of their entry on the hold expiration date. Thus there will be no
backlog for the initial release of entries, as entries will be made
available on the same day that they are given a PDB ID code. As authors will
have the responsibility of giving the `green light' to the release of their
entries, it is likely that they will make sure that they are as accurate as
possible.

The items of the list are a subset of those given in the Deposition Form.
Presentation in AutoDep will be implemented once the list is finalized. We
are now in the process of preparing a similar document which will outline
validation criteria that will be applied to entries before they are accepted
using the layered approach. There are a number of items to be pointed out:

   * We expect that most depositors will make use of one of the refinement
   programs for which the PDB has specified recommended tokens to be
   submitted. The mandatory list is of a `minimal subset' required for the
   PDB to process the data before issuing a PDB ID code.
   
   * For MAD data, it would be best to get details for all wavelengths
   used, but since this mandatory list is the minimal set required, we are
   asking for details corresponding to the data set used for refinement.
   This may be modified at a later date.
   
   * NMR entries are not yet well handled in this list. This is
   particularly true for describing the results of the refinement. The PDB
   is working with John Markley and Eldon Ulrich at the BMRB to improve the
   coverage for NMR experiments (see related article in this Newsletter).

Each token in the list of proposed mandatory items is described by six
fields:

   1. item No - Each item is assigned a number; item numbers with
   alphabetic extensions are for conditional_mandatory records.
   
   2. status - This is either mandatory or conditional_mandatory.
   Conditional_mandatory items become mandatory depending on the answer to
   the previous mandatory item.
   
   3. item - This is the name of the item to be requested.
   
   4. Dep - Section in Electronic Deposition Form V. 3.30 in which the item
   is requested and described. Please note that the Deposition Form is
   divided into sections and subsections, each with a title. We include in
   this field the section title followed by the subsection title within
   parentheses.
   
   5. Guide - Section in the PDB Contents Guide in which the field is
   described. This will normally be in the form of PDB record types. In
   some cases we include the field name in parentheses.
   
   6. Descr - Description of the item whenever necessary.

Mandatory records are classified into four groups:

   1. Administrative details - These include depositor information and
   special instructions.
   
   2. Data for validation - Crystal parameters, space group information,
   scale matrix, coordinates, etc. are included in this group and are
   needed for validation of the entry.
   
   3. Data for the experimental model - Compound, source, sequence, site,
   resolution range, R-value, free R-value, RMSD's, etc. will help the user
   in understanding and assessing the experimental model.
   
   4. Experimental Data - Experiment type, resolution range, completeness
   of data, R-merge or R-sym, etc. will help the user in understanding the
   experiment on which the model is based.

Two examples of items in the list follow.

item No: 4
status: mandatory
item: e-mail (Y/N)
Dep: Depositor Information (Primary Contact)
Guide:
Descr: Question on whether the depositor has an e-mail address. We will
require either a Y or N answer. N/A is not allowed. If yes we will require
the e-mail address.

	item No: 4a
	status: conditional_mandatory
	item: e-mail address
	Dep: Depositor Information (Primary Contact)
	Guide:
	Descr:

item No: 55
status: mandatory
item: non-standard space group setting or origin choice (Y/N)
Dep: CRYSTAL AND COORDINATE SYSTEM
Guide:
Descr:

	item No: 55a
	status: conditional_mandatory
	item: setting
	Dep:
	Guide: REMARK 285
	Descr:

	item No: 55b
	status: conditional_mandatory
	item: space group operators
	Dep:
	Guide: REMARK 285
	Descr:


-- AutoDep 2 Released

The PDB is pleased to announce the release of AutoDep version 2.0. This is
an improved version of our Web-based submission procedure, with many new
features and extended validation added. AutoDep 2.0 is designed to move
toward the Layered Release, discussed above.

We wish to acknowledge the valuable contribution to this effort made by our
beta testers, our collaborators at the EMBL Outstation: The European
Bioinformatics Institute (EBI), Kim Henrick and Peter Keller, our
collaborators at the BioMagResBank (BMRB), John Markley and Eldon Ulrich,
and the many users of AutoDep 1 who have taken the time to send us their
suggestions and bug reports.

The new features of AutoDep 2.0 include:

	* A Control Panel allows faster navigation through the process than
	was possible in the original AutoDep, and the user is led through the
	submission procedure as AutoDep "travels" to each new section to be
	completed.
	
	* A function is included to look up the user's contact information in
	our database. If found, AutoDep completes this information
	automatically.
	
	* Sending files is much easier through the use of a Web form with a
	file browser for selecting and uploading files to the PDB.
	
	* The helps have been improved. Requesting "help" on one particular
	question will return information only on that subject.
	
	* Non-standard space groups are handled properly.
	
	* After the submission is complete, PDB validates the entry by running
	our internal validation programs as well as the WHAT IF program of R.
	Hooft and C. Sander, as implemented in collaboration with the PDB
	(http://www.sander.embl-heidelberg.de/rob/checkhelp/). Checks include
	symmetry and geometry checks, and the results are compared with those
	obtained for other structures with similar resolution in the PDB. The
	author reviews these diagnostics before completing the submission.
	(See the April 1997 Newsletter for more on WHAT CHECK)
	
	* AutoDep 2.0 was programmed to make it portable. In the near future
	EBI will begin accepting AutoDep submissions, making it even easier
	for our users in Europe to submit their structures. The data will be
	forwarded to PDB for processing and inclusion into the archives. This
	will be followed by satellite submission sites at the Weizmann
	Institute in Rehovot, Israel, and Osaka University in Osaka, Japan.

All new submissions will use AutoDep 2.0. However, submissions already begun
with AutoDep 1 will be completed with the earlier interface. This will be
handled automatically by the program just by "continuing" an AutoDep session
of a BNL-number and password initiated in AutoDep 1. If you prefer to try
AutoDep 2.0 instead, use the "Based on a previous submission" function to
start a new session based on the uncompleted AutoDep 1 session. After two
months, all submissions will be directed to AutoDep 2.0.

Please see the Release Notes (http://www.pdb.bnl.gov/release-notes.html) for
more details. If you have any questions about either AutoDep 2.0 or AutoDep
1, please contact the PDB Help Desk at pdbhelp@bnl.gov or 516-344-6356.

------------------------------------------------------------------------

PDB Computer Services
	-- John McCarthy

-- PDB Internet Services Moved

The PDB's FTP/WWW/Gopher/Mailing List services were recently moved from a
Silicon Graphics, Inc. Power Series 4D/480S with eight 40 MHz 32 bit
processor computer system with 256 MB of main memory to a Silicon Graphics,
Inc. Power Challenge L with four 90 MHz 64 bit processors and 512 MB of main
memory. This new computer system is connected to the Internet via a 100
Mbit/second FDDI connection, ten times faster than the connection from the
old computer system. It also has increased disk capacity to store all the
entries being released by the PDB.

This move will allow for faster index searches using the PDB's Web browsing
tools and faster file retrieval using our anonymous FTP service.

-- PDB CD-ROM Files Compression

The current PDB CD-ROM set consists of six CDs. In the near future it will
require seven or more CDs if an alternative to current storage methods is
not found. Having seven or more CDs per set would require storing one set in
multiple cases and requires more CD swapping to access the entire database.

After investigating alternatives, the PDB plans to compress files on its
quarterly CD-ROM releases beginning with the October 1997 release. At first
just the structure factor files will be compressed, with coordinate entries
being compressed in the future.

The PDB is planning on using the Gnu gzip package to perform the compression
and will distribute the Gnu Gunzip package in the CD-ROM set to allow CD-ROM
users to perform the uncompression. The Gunzip package is free and the
source code, as well as executable files ready to run on some of the more
popular platforms, will be included in the CD-ROM set.

An effect of compression, since the CD-ROM set is written in ISO-9660 format
requiring filenames in the DOS 8.3 format, will be that the filenames will
be different. Files that had the PDB .ent suffix will have the .gz suffix
when compressed. The PC-based browser PDB-Shell has been updated to be able
to read compressed entry files.

A questionnaire has been sent to all users receiving the July 1997 CD-ROM
requesting their views in this matter. A similar questionnaire was sent out
in the summer of 1995 with most respondents very much in favor of
compression.

If you would like to receive the questionnaire or wish to comment on this,
please send e-mail to sysadmin@pdb.pdb.bnl.gov.

------------------------------------------------------------------------

BMRB - PDB Collaboration Update
	-- Eldon Ulrich, BMRB, University of Wisconsin, Madison, WI, USA
	(elu@bmrb.wisc.edu) and Enrique Abola, PDB.

The BioMagResBank (BMRB, http://www.bmrb.wisc.edu) and the PDB are
collaborating to develop efficient and standardized procedures for
depositing and exchanging three-dimensional structural data derived by NMR
spectroscopy. Our first step will be evident in the next version of the PDB
AutoDep system (see related article). NMR spectroscopists will be given
clear instructions concerning the types of data that can be deposited. These
data include not only the calculated atomic coordinates, but also the
constraints used in the calculations, statistics for the coordinates and
constraints, and the assigned chemical shifts for the molecule(s) studied.
The information requested will follow the recommendations of the
IUPAC-IUBMB-IUPAB Inter-Union Task Group on the Standardization of Data
Bases of Protein and Nucleic Acid Structures Determined by NMR Spectroscopy.

Processing and validation of PDB NMR entries will continue to be carried out
at PDB at this time. PDB has, however, begun to transfer submitted NMR data
to BMRB. BMRB staff will be contacting authors who have submitted structural
data to PDB without a full list of chemical shift assignments and reference
information to ask if they would be willing to deposit these data at BMRB.
In addition, we are developing a standard format for NMR constraint data,
procedures for validating the calculated atomic coordinates with the
submitted constraint data, and software to convert constraints between
commonly used input formats and the standard format. This work is being
carried out with the help of Helen Berman and John Westbrook of the Nucleic
Acid Database and Ton Rullmann, Robert Kaptein, and others involved in the
European Structure Validation Project. Implementation of the complete system
is expected to take several months.

------------------------------------------------------------------------

BNL Contract Up for Bid; Announcement Expected in November
	-- Kara Villamil, Public Affairs Office, Brookhaven National
	Laboratory, Upton, NY, USA.

After a roller coaster ride of a year, the entire Brookhaven National
Laboratory community is anxiously awaiting the announcement, expected in
mid-November, of a new contractor to operate BNL for the U.S. Department of
Energy.

The fate of BNL itself, and by extension the PDB, is not in question. But
the issue of who will run the Laboratory, beginning in January 1998, is.

The current situation arose beginning in May 1997, when U.S. Secretary of
Energy Federico Peña told the Lab's contractor of 50 years, Associated
Universities Inc., that its current contract with DOE would be terminated,
and a new bidding process begun, nearly two years earlier than planned.

Peña's announcement came on the heels of a DOE report detailing
environmental management deficiencies at the Lab and within DOE itself. The
report was commissioned following the discovery in mid-January of low-level
radioactive groundwater contamination emanating from the spent fuel pool at
BNL's main research reactor. The public and political uproar over that
contamination, and the Lab's other environmental problems, reached a fever
pitch in the spring and is still reverberating as the DOE weighs whether the
reactor should be allowed to operate again.

-- The Road to a New Contract

Peña's announcement of the contract's termination set in motion the creation
of a Source Evaluation Board, based out of DOE's Chicago Area Office, and
the solicitation of input from BNL employees and the local community on the
desired attributes of the next contractor.

Among the main requirements set out in the DOE's resulting Request for
Proposals was that the new contractor be non-profit, or a consortium led by
a non-profit entity; that it maintain the mission and employment level of
the Lab without substantial changes to employee benefits and union
contracts; that it improve environmental management at BNL; and that it lay
out plans for improved relations with the local community to repair the rift
left by months of news about the groundwater contamination and other issues.

The next step was for potential bidders to get to know BNL, a process that
brought dozens of representatives from academic and industrial institutions
to Long Island for tours and information sessions.

-- A Tumultuous Summer

Speculation about the prospective bidding teams, and the chances that AUI
would enter the race to try to reclaim its contract, ran wild until
midsummer, when the field had narrowed to two competing teams that had made
their bids public.

The State University of New York at Stony Brook, located less than 20 miles
from BNL and with a long history of collaboration with the Lab, announced on
July 28 that it had entered an agreement with the Battelle Memorial
Institute, a non-profit research foundation based in Ohio that also runs the
Pacific Northwest National Laboratory for DOE.

Then, on August 1, another New York institution, Rensselaer Polytechnic
Institute (RPI), announced it would join with Westinghouse Corp. of
Pittsburgh to bid. Just four days later, AUI announced it would not attempt
a bid for the contract, with President Lyle Schwartz calling Peña's
termination of the contract "a totally disproportionate response" to the
problems at the Lab.

Once they had announced their intentions, the bidding teams began preparing
their proposals, heading toward a September 1 deadline that changed to
September 8 on RPI's request.

But the picture changed again on the 8th, a Monday, when news broke that
RPI's president had decided to withdraw his institution's participation and
that Westinghouse had lined up a new partner and been granted a two-week
extension just 15 minutes before the deadline. While Stony Brook and
Battelle successfully submitted their bid that day, the new team of
Westinghouse and the Illinois Institute of Technology Research Institute
finalized its bids and submitted it by the new due date of September 22.
Both teams presented their bids to DOE in late September.

Despite the delays, DOE expects to evaluate the bids and announce the victor
on November 17, kicking off a transition period to transfer control from AUI
to the new contractor. By early January, the Lab will be on its way to a new
future, a much different
one than what it faced just a year ago.

------------------------------------------------------------------------

Staff News

The PDB has two new staff members that we would like to introduce. We also
were enriched by the close collaboration of several summer visitors and
student interns this year.

The PDB welcomes Jiri Koutnik. Jiri is working toward his Ph.D. in computer
science, and comes to us from the Czech Technical University, Prague, Czech
Republic. As part of the PDB's Informatics division, he will be helping us
develop better data handling tools for the "next generation PDB R&D".

Michael Miley, a recent graduate of the State University of New York at
Stony Brook's Pharmacology School, joins the PDB's User Support Group. He is
handling the Quarterly Releases, including the distribution of the CD-ROM
and Newsletters, as well as some of the Help Desk queries. As part of the
professional staff, Mike is also processing coordinate entries. Mike has
been a student assistant with the PDB since January 1997, and we are pleased
to welcome him as permanent staff.

Masami Kusunoki, Associate Professor of Crystallography at Osaka University
in Japan, was here for the summer learning how the PDB functions. Upon
returning home, he plans to set up a deposition and distribution node of the
PDB at the University of Osaka. This important development will be a major
asset to our users in Asia and the Pacific Rim, and the PDB is pleased to be
collaborating with one of our long-standing Centers for this resource.

Manfred Hendlich, a computational chemist from Marburg University in
Germany, worked at the PDB this summer as a visiting scientist. He devoted
his time to the development of data handling and distribution tools for use
in AutoDep and for the heterogen database, RELIBase. A brief description of
this database is given in this Newsletter.

Petr Kocab of SoftDeC, Prague, and Martin Senger of the EBI, Hinxton Hall,
UK were also here for several weeks this summer. Working closely with Otto
Ritter, Head of Informatics, they are developing software components as part
of the PDB information system reengineering effort.

Wen-Juan Xu comes to the PDB through the Suffolk County Community College
Women's Internship Program. Wen-Juan is working part-time during the fall
semester completing development of a database for the use of our User
Support Group. We are also happy to report that Mariya Kobiashvili and
Sabrina Hargrove are extending their time with us into the fall semester.
They are assisting the Archive Management Group, Mariya with the Help Desk
and Sabrina providing administrative and clerical support.

The PDB wishes a fond farewell to three students who were with us this
summer, Keith Peters, Jie Zhang, and Steve Murtagh. Keith is a sophomore at
the California Institute of Technology, majoring in computer science. He
spent his third consecutive year with us aiding John McCarthy with computer
system administration. Jie, who is a junior at William Floyd High School in
Shirley, NY, spent his summer break with us for his second consecutive
summer doing some computer programming and database work. Steve Murtagh, a
sophomore at Shorham High School in Shorham, NY, worked with us this summer
doing some computer programming. They have all gone back to school and we
wish them well.

The PDB would also like to say good-bye to Brigitte Sylvain who has
completed her term as a Professional Associate with the PDB. Brigitte is now
pursuing graduate studies in molecular biology.

------------------------------------------------------------------------

PDBObs: The Obsolete Structures Database has Been Upgraded

	-- Helge Weissig and Phil Bourne, San Diego Supercomputer Center,
	San Diego, CA, USA (helgew@sdsc.edu or bourne@scsc.edu;
	http://pdbobs.sdsc.edu).

PDBObs, the archive of obsolete PDB entries at the San Diego Supercomputer
Center has moved to a new location: http://pdbobs.sdsc.edu/. Although
requests to the former address will be automatically forwarded, all future
queries should be directed to the new URL. PDBObs is now running on an eight
processor Sun Enterprise Server 6000 as part of an initiative with Sun
Microsystems Inc. to provide high quality services to the molecular biology
community. The new system provides a significant reduction in the time taken
to process requests.

Beyond improved hardware, several new features have been added to PDBObs
since its introduction at the beginning of the year. The following additions
further facilitate the comparison of all versions of a particular structure:
	
	* a comprehensive table outlining differences and commonalities in
	experimental data (e.g., cell parameters, space group, number of
	atoms) and supporting information (e.g., authors, compound name,
	deposition, and release dates)
	
	* comparison of dihedral angles, bond angles, and bond lengths for
	single residues and groups of residues (e.g., all proline or all alpha
	helical residues)
	
	* introduction of a quantitative "fold deviation score" (FDS) as a
	means of comparison of structural parameters to "standard" small
	molecule data
	
	* analysis of the whole structure for FDS scores as above and
	displayed as a colored C-alpha traces in Rasmol.

All new features are supported by the property object model (I.N. Shindyalov
and P.E. Bourne (1997) CABIOS 13: in press). For further information about
the new features outlined above see
http://pdbobs.sdsc.edu/whatsnew.html.

------------------------------------------------------------------------

RELIBase: A Database of Receptor/Ligand Complexes
	-- Manfred Hendlich, Department of Pharmaceutical Chemistry,
	University of Marburg, Germany (hendlich@pharmazie.uni-marburg.de).

RELIBase (http://pdb.pdb.bnl.gov:8081/home.html) is the first free Web-based
service that can access receptor/ligand structures deposited in the PDB by
true 3D search queries.

The main purpose of RELIBase is to provide a selective and efficient access
to receptor/ligand complexes currently deposited in the PDB and to make the
enormous wealth of information contained in the receptor/ligand structures
available for structure-based drug design studies.

The WWW-based interface to RELIBase can be used to input a sub-structure
search object either by text, a smiles string, or by an interactive
Java-based molecule editor, and the system can perform the following
functions:

	* 2D substructure searches for fast identification of all ligands
	which contain a specific functional group.
	
	* 2D similarity searches.
	
	* Protein sequence similarity searches.
	
	* 3D substructure searches permit the identification and analysis
	of specific interactions between ligands and proteins.
	
	* Analysis of interaction preferences. RELIBase permits a
	statistical analysis of the atomic environment seen by functional
	groups in protein/ligand complexes.

More on RELIBase will appear in the next PDB Quarterly
Newsletter. Please send your comments on RELIBase to:
hendlich@pharmazie.uni-marburg.de.

------------------------------------------------------------------------

HIC-Up: Dealing with Hetero-Compounds
	-- Gerard J. Kleywegt, Department of Molecular Biology, Uppsala
	University, Uppsala, Sweden (gerard@xray.bmc.uu.se).

As more and more complexes of biomacromolecules and small molecules
(inhibitors, ligands, substrate analogues, etc.) are solved, there is a need
for resources to deal with these compounds. In particular, during
(crystallographic) refinement and rebuilding operations, users need
"dictionaries" describing the geometry and stereochemistry of such
hetero-entities. Generating such dictionary files is a cumbersome,
time-consuming and error-prone undertaking. In order to simplify the
process, we have collected a large set of hetero-entities from the Protein
Data Bank (PDB), and implemented some tools that automate much of the
dictionary-generation process.

-- Collection of Hetero-Compounds

The best place to start looking for coordinates for a hetero-compound is the
CSD, the Cambridge small-molecule crystallographic database. If such a
search yields no useful clues (either the exact compound you are looking
for, or a related compound, or a set of fragments), or if one does not have
access to the CSD, the next-best thing may be to check if anyone else has
previously used the compound in a macromolecular refinement. In that case,
the PDB is the most suitable place to look. In order to make the search as
simple as possible, we have written a script which automatically scans the
PDB and finds all unique hetero-compound names. This list is fed into a
program that scans all PDB entries again, in order of decreasing resolution
(and NMR structures after X-ray structures). As soon as one of the
hetero-compounds from the list is encountered, the coordinates are stored.
Once the scan is complete, every hetero-compound is translated to put its
centre-of-gravity at the origin, all occupancies are set to 1.0 and all
temperature factors to 20.0 Å2. The coordinates and some additional
information (PDB entry from which it was taken, resolution, a list of other
PDB files which contain the same compound, etc.) are then written to one
large file. Our present collection, generated using the December 1996
version of the PDB, contains more than 1,100 (mostly unique)
hetero-compounds - the file is updated about twice a year. This file (called
"hetero.pdb") is also used by the BioMagResBank (http://www.bmrb.wisc.edu/)
in its electronic deposition procedure. As an example, the entry for retinol
looks as follows:

COMPND RTL RETINOL
REMARK RTL Extracted from PDB file 1hbp.pdb
REMARK RTL Formula C20 H30 O1
REMARK RTL Nr of non-hydrogen atoms 21
REMARK RTL Residue type RTL
REMARK RTL Residue name 951
REMARK RTL Original residue name (for O) $176
REMARK 2 RESOLUTION. 1.9 ANGSTROMS. 1HBP 29 RTL
REMARK RTL Compound also present in : 1RBP 1CRB 1BRP
HETATM 1 C1 RTL 951 -2.428 1.801 -3.065 1.00 20.00 1HBP
HETATM 2 C2 RTL 951 -2.950 1.847 -4.505 1.00 20.00 1HBP
HETATM 3 C3 RTL 951 -2.239 0.962 -5.522 1.00 20.00 1HBP
[...]
HETATM 20 C20 RTL 951 1.882 -0.696 5.344 1.00 20.00 1HBP
HETATM 21 OR RTL 951 5.637 -1.079 5.994 1.00 20.00 1HBP
REMARK RTL ENDHET

Using an editor, or a unix tool as simple as "grep", one can quickly find
out if the compound one is looking for occurs in the file. Since compound
names are not always clear and unambiguous (suspiciously many compounds are
called "SEE REMARK 7", for instance), one may also use a jiffy program
(CT2HET) to search the collection based on a connectivity file. This program
is also useful if one wants to find all six-membered sugar compounds, etc.

-- X-PLOR/CNS and TNT Dictionaries

XPLO2D is a utility program that contains an option to generate appropriate
dictionaries for X-PLOR/CNS. Given a PDB file containing the coordinates of
a hetero-compound, it generates four new files:

	* a topology file (defining atom types, masses, etc., bonds,
	impropers [chiral carbons, flat groups and bonds], possible
	dihedrals, hydrogen-bond acceptors and possible donors). This file
	may need to be edited, for instance to add charges and the masses
	of implicit hydrogen atoms (although both are usually ignored by
	crystallographers nowadays).
	
	* a parameter file (defining target values and force constants for
	bonds, etc.). The target values are simply the averages of the
	observed values. The force constants are set to the same value for
	all bonds, angles and impropers (the defaults being in the same
	ball-park as those of the Engh and Huber force field).
	
	* an X-PLOR input file which, when executed, will energy-minimise
	the structure of the compound and print a list of violations. This
	should always be done prior to inclusion of the compound into the
	refinement process, since the resulting structure reveals what
	X-PLOR will try to make the compound look like once it is included.
	If, for instance, a dihedral angle was given a target value of 180
	degrees whereas it should have been 0 degrees, this will show up
	immediately after the energy minimisation. Hence, this is a quick
	and easy way to prevent the frustration of finding that X-PLOR has
	"ruined" your compound after a 4,000 K slow-cool which took two
	days to execute ...
	
	* a "clean" PDB file suitable for use by X-PLOR in the
	energy-minimisation procedure.

Recently, this program has been modified so that it can also produce
rudimentary dictionaries for use with the crystallographic refinement
program TNT. The program can be fed multiple copies of a hetero-entity, in
which case all bond lengths, etc. are averaged to produce target values.

-- O Dictionaries

Another utility program (MOLEMAN or MOLEMAN2) can be used to generate four
of the five types of dictionary file that may be needed for the display and
manipulation of a hetero-compound inside O. The only dictionary that cannot
be generated in this fashion is that required for regularisation. On the
other hand, regularisation can be done rapidly in X-PLOR, and if one uses
sensible manipulation commands in O it will rarely be necessary to
regularise a hetero-compound. The four types of dictionary that can be
generated automatically involve:

	* Connectivity. In order for O to draw the correct bonds, e.g., no
	bonds between hydrogen atoms, a connectivity entry is sometimes
	needed (although in most cases the defaults in O will do the job).
	
	* Real-space fit. To include a compound in real-space fit
	calculations, a list of all its atoms can be provided as an O
	datablock.
	
	* Real-space refinement. A similar datablock is needed to include
	the compound in some real-space refinement calculations (RSR_zone).
	
	* Torsions. Some torsion-angle manipulations in O require that
	these angles and the affected atoms be defined.

-- Availability

The Uppsala resources related to hetero-compounds have been collected into a
new, freely-accessible Web site called HIC-Up (Hetero-compound Information
Centre-Uppsala), which can be accessed at URL:
http://alpha2.bmc.uu.se/hicup/.

The site contains a subset of the following items for each of over 1,100
hetero-compounds:

	* a PDB file with some REMARKs and with HETATM records
	
	* a "clean" PDB file, ready to use in your favourite model building
	and refinement programs
	
	* the output of the program HETZE which attempts to check the
	quality of hetero-compounds
	
	* the "official" PDB dictionary file (containing CONECT records,
	etc.)
	
	* a VRML file (requires a VRML browser or plug-in)
	
	* a ChemScape Chime page (requires the Chime plug-in)
	
	* a connection table
	
	* a list of other hetero-compounds which are either identical to
	the present compound, or a superstructure of it (this search is
	only carried out if the compound contains 10 or fewer non-hydrogen
	atoms)
	
	* X-PLOR/CNS dictionary files
	
	* O dictionary files
	
	* a TNT dictionary file
	
	* a pointer to the PDBSUM site at UCL, London, showing a list of
	all PDB files which contain the present hetero-compound
	
	* a summary of the HETZE report
	
	* a GIF image of the compound (generated with LIGPLOT)
	
	* an "ASCII picture" showing atom names and connectivity, taken
	from the PDB dictionary file

The compounds can be accessed through several sorted index lists (residue
name, trivial name, chemical formula, number of non-hydrogen atoms).

The HIC-Up site also contains:

	* a service to generate dictionaries for O, X-PLOR/CNS and TNT from
	a structure you provide;
	
	* a service to run HETZE, a program which does some basic quality
	checks on hetero-compound structures;
	
	* a list of hyperlinks to other sites containing useful information
	related to hetero-compounds in structural biology.

------------------------------------------------------------------------

SBNet: The Swedish Structural Biology Network
	-- Gerard J. Kleywegt, Department of Molecular Biology, Uppsala
	University, Uppsala, Sweden (gerard@xray.bmc.uu.se).

Shortly before it lost the 1994 elections, the previous Swedish government
allocated a whopping six billion Swedish crowns (almost one billion US$) to
stimulate scientific research and development efforts. A major recipient of
this money was the Swedish Foundation for Strategic Research
(http://www.stratresearch.se/). The "mission" of this Foundation is to
support scientific, technical and medical research. It does so by promoting
the development of important research environments of the highest
international standing with a view to enhancing Sweden's long-term
competitiveness.

The Foundation issued a call for proposals, and the Swedish structural
biologists were among the first to comply. In the Autumn of 1994, a
programme committee consisting of Alwyn Jones (Uppsala University), Hans
Eklund (Swedish University of Agricultural Sciences, Uppsala), Björn Nilsson
(Pharmacia & Upjohn, Stockholm), Torleif Härd (Karolinska Institute,
Stockholm) and Sture Forsén (Lund University) compiled the first detailed
proposal, outlining the contours of a Structural Biology Network. A sum of
roughly 65 million Swedish crowns (approximately ten million US$) for the
period 1996-2000 was eventually allocated by the Foundation, and in 1996 the
Network (dubbed SBNet) took off. The Network is run by the Programme
Director (Alwyn Jones) and the Chairman of the Board (Björn Nilsson),
assisted by the Network Coordinator (Gerard Kleywegt). The Network Board is
responsible for the allocation of finances and for steering the Network into
areas of strategic importance. Besides Jones and Nilsson, its members are
Jan Hoflack (Astra, Gothenburg), Guy Dodson (University of York) and Iain
Campbell (Oxford University).

The Network is officially hosted by Uppsala University, and it unites
academic and industrial structural biologists from the following
disciplines:

	* biomacromolecular X-ray crystallography
	
	* high-resolution NMR spectroscopy of biomacromolecules
	
	* near-atomic resolution electron microscopy of biomacromolecules
	
	* computer modeling of biomacromolecules
	
The Network aims to strengthen the strategic value of structural biology in
Sweden by using a four-tiered approach:

	1. To reinforce excellence
	
	2. To remedy current weaknesses
	
	3. To elevate graduate training to a world-class level
	
In order to achieve these aims, the Network:
	
	* funds the building of a dedicated expression laboratory in Uppsala
	
	* funds a number of Ph.D. student and researcher positions
	throughout Sweden
	
	* organises a mentor system for the students who are funded through
	the Network
	
	* organises an Annual Conference open to all interested structural
	biologists in Scandinavia
	
	* organises workshops and advanced graduate courses on specialised
	topics in any of the disciplines of structural biology
	
	* awards travel grants to stimulate lab rotation visits by students
	and post-docs
	
	* maintains a mailing list through which news and information is
	disseminated to Swedish structural biologists
	
	* maintains a Web site to foster the exchange of news and
	information relevant to the Network or Swedish structural biology
	in general

The First Annual Conference of the Network was organised in June. It was set
up in a format not unlike that of the Gordon Research Conferences, with
lectures by invited speakers from abroad and by young people from within
Sweden, and with the afternoons dedicated to informal discussions. There
were five sessions, dealing with X-ray techniques and applications, drug
design, membrane proteins, hot structures, and NMR techniques and
applications. In addition there was a poster session (and a football match
between the crystallographers and the NMR spectroscopists that ended with a
score of 4-1). Pharmacia & Upjohn sponsored an award for the best poster,
which went to Mathias Eriksson ("Ribonucleotide reductase"). Astra's
Structural Chemistry Laboratory sponsored an award for the best presentation
by a young person. This award was won by Helena Berglund ("Structural
studies of the ribosomal protein S15").

The Conference was attended by 120 structural biologists (the maximum number
that could be accommodated) from all four disciplines, and with a strong
representation from the two industrial labs at Pharmacia & Upjohn and at
Astra. The atmosphere was very friendly and the discussions lively. Almost
60 young people presented posters of a generally high quality, indicating
that structural biology is a rapidly expanding and dynamic field in Sweden.
In his closing remarks, the "eminence grise" of Swedish structural biology,
Carl-Ivar Brändén, noted that the fact that so many young people were
attracted to this field was a good sign, since students often have a better
impression of which scientific areas are important than the people who
supervise them. After the meeting, one of the invited speakers said that he
wished that there were such a Network in his own country.

For more information about the Network, see the SBNet web site at URL:
http://alpha2.bmc.uu.se/~gerard/srf/ or send e-mail to:
sbnet@xray.bmc.uu.se. For a (biased) report of the X-ray versus NMR football
match see: http://alpha2.bmc.uu.se/~gerard/srf/conference_1997.html.

------------------------------------------------------------------------

Two New Programs for Accessing the PDB
	-- Chaitali Mukhopadhyay and Sanjib Kumar Gupta, Distributed
	Information Centre, Bose Institute, Calcutta, India
	(dicroot@giascl01.vsnl.net.in, dic@boseinst.ernet.in,
	root@boseinst.ernet.in).

-- PDBVIEW

PDBVIEW is a PC - based software program that can search PDB entries by
compound, source, and header. The Boolean operators "and, or, not" can be
used for searching. The program then asks for the display option. The
display of an individual entry contains the header, compound, and source
fields. It also asks whether the sequence is to be displayed or not. The
sequence display appears at the bottom of the screen as a line with
horizontal boxes of different types for helix and sheet components. The
length of the boxes is proportional to the length of the secondary
structural elements.

A repeated display of a homologous family of proteins helps one to identify
the common secondary structural elements in them. This program is also
helpful for browsing the PDB files and for a two dimensional representation
of the secondary elements of a protein.

The program uses several databases (generated from the PDB files) containing
various fields and secondary structural information. These databases have to
be generated prior to the searching. The program that can read the CD-ROMs
containing PDB entries and generates the databases are available on request
from dicdbt@boseinst.ernet.in or root@boseinst.ernet.in.

All the programs have been developed in C in collaboration with students of
Regional Computer Centre, Jadavpur, Calcutta, India.

-- LOOP SEARCH

The program LOOP SEARCH has been developed in C and can be compiled on unix
workstations having a CD-ROM drive. The program will read the PDB entries
from the CD-ROM drive. The program takes the secondary structural
information from the file. The structural elements are then arranged
sequentially and the lengths of the loop residues connecting two such
elements are calculated. The loops are categorized based on their
connectivity, e.g., a loop connecting two helical segments are assigned as
category 1, connecting one helix and one strand - 2, connecting two beta
strands - 3, and connecting beta strand and helix - 4. The output file
contains the entry name, loop length, loop category and the sequence in one
letter code. The output file is in the FASTA format.

The output file is very useful for homology modeling purposes, where finding
a loop of similar length and same category might aid in the modeling
process. Also, creation of a general database of loops will be possible.

This program was developed in collaboration with Mr. Debanu Das, Chemistry
Dept, IIT Kanpur, India and students of Regional Computer Centre, Jadavpur,
Calcutta, India.

------------------------------------------------------------------------

Notes of a Protein Crystallographer
-- The Lunar Element and our Collective MADness

	-- Cele Abad-Zapatero, Dept. of Structural Biology, Abbott
	Laboratories, Abbott Park, IL, USA (abad@abbott.com).

In the old part of Grenoble (Department of Isère and capital of the Dauphiné
province) in France, there is a café named "Café de la Table Ronde", right
across from the old Palais de Justice in the Place de St. André. According
to some of the newspaper clippings hanging from its rustic walls, this
coffee house was the second in France, founded in 1739, seventy years after
the first coffee house in France the "Café d'Europe" in Paris. Among its
clientele this café boasted actors such as Fernandel and Gerard Depardieu;
folk singers and balladeers like Jacques Brel and George Brassens, and
writers of the caliber of Pierre Choderlos de Laclos (1741-1803; Les
Liaisons Dangereuses, object of an American film by the same title) and
Stendhal (1783-1842; pseudonym of Marie-Henri Beyle, Le Rouge et le Noir),
who was a native of Grenoble. I am certain that in most recent years it has
also been the place of gathering for many of the most illustrious scientists
that visit the ESRF in Grenoble every year. However, they were not listed
yet.

I was sitting at this cafe late in the evening on June 16, 1996 at the
conclusion of the workshop on Multiple Anomalous Diffraction (MAD, Grenoble,
June 10-16, 1996) marking time until the departure of my TGV train back to
Paris. Somehow, an anonymous photographer managed to capture the very same
spot I was sitting down in one of the Grenoble postcards. The square where
the outdoor tables were set was full of life, and a full Moon was shining up
on one of the corners of the quadrilateral defined by the roofs of the
buildings around me, including the parish of Saint André. As I remember that
night, and the subsequent developments in our laboratory, I feel as if, in
that particular moment, I was "moonstruck" in a scientific rather than
romantic manner. At that time, our laboratory had just solved, in a matter
of only a few weeks, its first structure using the MAD methodology. From
then on, I have felt captivated by the "power and sheer elegance of the
method (1)" derived from the substitution of Sulfur by Selenium in the
protein.

Selenium (from Greek selene, "moon") derives its name from its silvery
appearance and was recognized as an element in 1818 by Jöns Jacob Berzelius.
Its location in The Periodic Kingdom (2) is in the Eastern Rectangle (the
p-block), right after the isthmus that connects the strong metals (Western
rectangle) with the nonmetallic elements and has the yellow Sulfur as its
northern neighbor. Its gray metallic, lunar-like, appearance was probably
the main reason behind its name but its ability to exist in several
different colored forms, akin to the phases of the Moon established for me
another connection with our night planet. As an amorphous (noncrystalline)
powder it is red but transforms easily into a black vitreous glass. As a
crystal, it can be red or gray with the latter being the most stable under
ordinary conditions. By itself it is not poisonous but many of its compounds
are very toxic. However, it is also an essential mineral that has to be
provided in the diet of certain animals.

After that night, it seems as if I am under the spell of this gray metalloid
element and I think that I am not alone in view of the many structures that
are solved nowadays using this methodology. The spell of this lunar element
on protein crystallographers is undoubtedly due to the unique properties of
its electron cloud with an absorption K-edge at 12.658 KeV (0.9795 Å). Its
strong attractive influence is also due to the fact that it can be easily
incorporated into our protein samples and that, most of the time, our
crystals do not even notice it (3,4).

As judged by the number of protein structures solved by this method in the
last year (5), my lunar hallucinations have spread to a large number of
members of the protein crystallography community and may soon reach the
level of a collective MADness. The origins of this hysteria can be traced
back for a number of years and I will not elaborate on this (6,7). However,
I would argue that there must be an instigator, a culprit, for such a large
group of "intelligent" people to become engulfed in such a collective state
of agitation. I have not taken a poll but I think that, for once, the
community is unanimous and unambiguous as to who that person is, and I will
not even have to name the author of such witchcraft.

May these few lines be an expression of respect and admiration for the
leader of this unusual and benign cult. May these words pay homage to one of
the unsung heroes of the structural revolution in Biology, who was recently
justly honored with the Gregori Aminoff Prize in Sweden. May these letters
express my personal gratitude, that of my colleagues, and the one from the
community at large, to such an "anomalous" and visionary colleague. He has
opened for us a path to solve new structures, illuminated by the pale light
and color of the lunar element combined with the brightness and tunability
of our most brilliant X-ray sources. When I go to the Café de la Table Ronde
next time, I would like to see the names of some scientists among its
illustrious clientele, and our MADman among them.

		References

1. Words used by Dr. Steve Cusack at the opening of the Workshop at the EMBL
Grenoble Outstation.

2. The Periodic Kingdom: A Journey into the Land of the Chemical Elements by
P.W. Atkins. Basic Books, a Division of Harper Collins Publishers, 1995.

3. Cowie, D. B. and Cohen, G. N. (1957). Biochim. Biophys. Acta, 26, 252-261.

4. Hendrickson, W. A., J. R. Horton and David M. LeMaster (1990) EMBO J., 9,
1665-1672.

5. Abstracts of the Annual ACA meeting in St. Louis, Missouri, July 19-15,
1997.

6. Hendrickson, W. A. (1985). Transactions of the American Crystallographic
Society 21, 11-21.

7. Macromolecular Crystallography with Synchrotron Radiation by J.R.
Helliwell, Cambridge University Press, Cambridge, England, 1992.

------------------------------------------------------------------------

SITES Referenced in the October 1997 PDB Newsletter

Archive of Obsolete PDB Entries
	http://pdbobs.sdsc.edu/
   Recent Changes and Additions
	   http://pdbobs.sdsc.edu/whatsnew.html

AutoDep Release Notes
	http://www.pdb.bnl.gov/release-notes.html

BioMagResBank
	http://www.bmrb.wisc.edu/

HIC-Up (Hetero-compound Information Centre Uppsala)
	http://alpha2.bmc.uu.se/hicup/

Protein Data Bank
	http://www.pdb.bnl.gov

RELIBase
	http://pdb.pdb.bnl.gov:8081/home.html

SBNet (Swedish Structural Biology Network)
	http://alpha2.bmc.uu.se/~gerard/srf/
   Report of the X-ray versus NMR football
	   http://alpha2.bmc.uu.se/~gerardsrfconference_1997.html

Swedish Foundation for Strategic Research
	http://www.stratresearch.se/

What Check
	http://www.sander.embl-heidelberg.de/rob/checkhelp/

------------------------------------------------------------------------

AFFILIATED CENTERS AND MIRROR SITES

Thirty-six affiliated centers offer the Protein Data Bank database archives
for distribution. These centers are members of the Protein Data Bank Service
Association (PDBSA). Centers designated with an asterisk(*) may distribute
the archives both on-line and on magnetic or optical media; those without an
asterisk are on-line distributors only. Information is given for those
Centers that are now also official PDB Mirror Sites.

*APPLIED THERMODYNAMICS, LLC
Hunt Valley, Maryland, USA
George Privalov (410-771-1626)
George_Privalov@classic.msn.comhttp://www.mole3d.com

BIRKBECK
Crystallography Department
Birkbeck College, University of London
London, United Kingdom
Ian Tickle (44-171-6316854)
tickle@cryst.bbk.ac.uk
http://www.cryst.bbk.ac.uk

BMRB
BioMagResBank
University of Wisconsin - Madison
Madison, Wisconsin, USA
Eldon L. Ulrich (608-265-5741)
elu@bmrb.wisc.edu
http://www.bmrb.wisc.edu

BMERC
BioMolecular Engineering Research Center
College of Engineering, Boston University
Boston, Massachusetts, USA
Nancy Sands (617-353-7123)
sands@darwin.bu.edu
http://bmerc-www.bu.edu

CAOS/CAMM
Dutch National Facility for Computer Assisted Chemistry
Nijmegen, The Netherlands
Jan Noordik (31-80-653386)
noordik@caos.caos.kun.nl
http://www.caos.kun.nl

*CCDC
Cambridge Crystallographic Data Centre
Cambridge, United Kingdom
David Watson (44-1223-336394)
watson@ccdc.cam.ac.uk
http://www.ccdc.cam.ac.uk

PDB Mirror Site:
http://pdb.ccdc.cam.ac.uk/
Ian Bruno (mirror@ccdc.cam.ac.uk)

CMU
Carnegie Mellon/Pittsburgh Supercomputing Center
Pittsburgh, Pennsylvania, USA
Hugh Nicholas (412-268-4960)
nicholas@psc.edu
http://pscinfo.psc.edu/biomed/biomed.html

CSC
CSC Scientific Computing Ltd.
Espoo, Finland
Erja Heikkinen (358-9-457-2433)
erja.heikkinen@csc.fi
http://www.csc.fi

DKFZ
German Cancer Research Center
Heidelberg, Germany
Otto Ritter (49-6221-42-2372)
o.ritter@dkfz-heidelberg.de
http://www.dkfz-heidelberg.de

EMBL
European Molecular Biology Laboratory
Heidelberg, Germany
Hans Doebbeling (49-6221-387-247)
hans.doebbeling@embl-heidelberg.de
http://www.EMBL-Heidelberg.DE

EMBL OUTSTATION: THE EUROPEAN BIOINFORMATICS INSTITUTE
Wellcome Trust Genome Campus
Hinxton, Cambridge, United Kingdom
Philip McNeil (44-1223-494-401)
mcneil@ebi.ac.uk
http://www.ebi.ac.uk

PDB Mirror Site:
http://www2.ebi.ac.uk/pdb
Philip McNeil (pdbhelp@ebi.ac.uk)

FUJITSU KYUSHU SYSTEM ENGINEERING LTD.
Computer Chemistry Systems
Fukuoka, Japan
Masato Kitajima (81-92-852-3131)
ccs@fqs.fujitsu.co.jp
http://www.fqs.co.jp/CCS

FMI
Friedrich Miescher Institute
Basel, Switzerland
Carl David Nager (41-61-697-5678)
carl.david.nager@fmi.ch
http://www.fmi.ch

ICGEB
International Centre for Genetic Engineering and Biotechnology
Trieste, Italy
Sandor Pongor (39-40-3757300)
pongor@icgeb.trieste.it
http://www.icgeb.trieste.it

IGBMC
Laboratory of Structural Biology
Strasbourg (Illkirch), France
Frederic Plewniak (33-8865-3273)
plewniak@igbmc.u-strasbg.fr
http://www-igbmc.u-strasbg.fr

*JAICI
Japan Association for International Chemical Information
Tokyo, Japan
Hideaki Chihara (81-3-5978-3608)

LIGM
Laboratorie d'ImmunoGenetique Moleculaire
Montpellier, France
Marie-Paule LeFranc (33-04-67-61-36-34)
Lefranc@ligm.crbm.cnrs-mop.fr
http://imgt.cnusc.fr:8104

MAG
Molecular Applications Group
Palo Alto, California, USA
Margaret Radebold (415-846-3575)
bold@mag.com
http://www.mag.com

*MSI
Molecular Simulations Inc.
San Diego, California, USA
Mark Forster (619-458-9990)
mjf@msi.com
http://www.msi.com

NATIONAL CENTER FOR BIOTECHNOLOGY INFORMATION
National Library of Medicine
National Institutes of Health
Bethesda, Maryland, USA
Stephen Bryant (301-496-2475)
bryant@ncbi.nlm.nih.gov
http://www.ncbi.nlm.nih.gov

NATIONAL RESEARCH COUNCIL OF CANADA
Institute for Marine Biosciences
Halifax, N.S., Canada
Christoph W. Sensen (902-426-7310)
sensencw@niji.imb.nrc.ca
http://cbrmain.cbr.nrc.ca

NATIONAL TSING HUA UNIVERSITY
Department of Life Science
HsinChu City, Taiwan
J.-K. Hwang (+886 3-5715131, extension 3481) or lshjk@life.nthu.edu.tw
P.C. Lyu (+886 3-5715131 extension 3490) lslpc@life.nthu.edu.tw
http://life.nthu.edu.tw

PDB Mirror Site:
http://pdb.life.nthu.edu.tw/
Tony Wu (mirror@life.nthu.edu.tw)

NCHC
National Center for High-Performance Computing
Hsinchu, Taiwan, ROC
Jyh-Shyong Ho (886-35-776085; ext: 342) c00jsh00@nchc.gov.tw

NCSA
National Center for Supercomputing Applications
University of Illinois at Urbana-Champaign
Champaign, Illinois, USA
Allison Clark (217-244-0768)
aclark@ncsa.uiuc.edu
http://www.ncsa.uiuc.edu/Apps/CB

NCSC
North Carolina Supercomputing Center
Research Triangle Park, North Carolina, USA
Linda Spampinato (919-248-1133)
linda@ncsc.org
http://www.mcnc.org

*OML
Oxford Molecular Ltd.
Oxford, United Kingdom
Kevin Woods (44-1865-784600)
kwoods@oxmol.co.uk
http://www.oxmol.co.uk or http://www.oxmol.com

*OSAKA UNIVERSITY
Institute for Protein Research
Osaka, Japan
Masami Kusunoki (81-6-879-8634)
kusunoki@protein.osaka-u.ac.jp

PEKING UNIVERSITY
Molecular Design Laboratory, Institute of Physical Chemistry
Beijing 100871, China
Luhua Lai (86-10-62751490)
lai@ipc.pku.edu.cn
http://www.ipc.pku.edu.cn

PDB Mirror Site:
http://www.ipc.pku.edu.cn/pdb
Li Weizhong (liwz@csb0.ipc.pku.edu.cn)

SAN DIEGO SUPERCOMPUTER CENTER
San Diego, California, USA
Philip E. Bourne (619-534-8301)
bourne@sdsc.edu
http://www.sdsc.edu

SEQNET
Daresbury Laboratory
Warrington, United Kingdom
User Interface Group (44-1925-603351)
uig@daresbury.ac.uk
http://www.seqnet.dl.ac.uk

*TRIPOS
Tripos, Inc.
St. Louis, Missouri, USA
Akbar Nayeem (314-647-1099; ext: 3224)
akbar@tripos.com
http://www.tripos.com

TURKU CENTRE FOR BIOTECHNOLOGY
University of Turku and Abo Akademi University
Turku, Finland
Adrian Goldman (358-2-3338029)
goldman@btk.utu.fi
http://www.btk.utu.fi

UNIVERSIDAD NACIONAL DE SAN LUIS
Facultad de Ciencias Fisico Matematicas y Naturales
Universidad Nacional de San Luis
San Luis, Argentina
Jorge A. Vila (54-652-22803)
vila@unsl.edu.ar
http://linux0.unsl.edu.ar/fmn

PDB Mirror Site:
http://pdb.unsl.edu.ar
Fernando Aversa (aversa@unsl.edu.ar)

UNIVERSIDADE FEDERAL DE MINAS GERAIS
Instituto de Ciencias Biologicas
Belo Horizonte, MG - Brazil
Marcelo M. Santoro (55-31-441-5611) santoro@icb.ufmg.br
Ari M. Siqueira (55-31-952-7470) siqueira@icb.ufmg.br
http://www.icb.ufmg.br

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HIV Protease Database 	http://www-fbsc.ncifcrf.gov/HIVdb/

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Library of Protein Family Core
	http://WWW-SMI.Stanford.EDU/projects/helix/LPFC/

Crystal MacroMolecule Files at EBI
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NCBI (National Center for Biotechnology Information)
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NDB (Nucleic Acid Database) 	http://ndbserver.rutgers.edu

PDB (Protein Data Bank) 	http://www.pdb.bnl.gov

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Prolysis: A Protease and Protease Inhibitor Web Server
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Swiss-Prot Sequence Database 	http://expasy.hcuge.ch/sprot/sprot-top.html

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Enzyme Structures Database 	http://www.biochem.ucl.ac.uk/bsm/enzymes/

PDBsum 	http://www.biochem.ucl.ac.uk/bsm/pdbsum

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OPM (Object-Protocol Model) Data Management Tools
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Squid: Analysis and Display of Data from Crystallography and Molecular Dynamics
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VMD - Visual Molecular Dynamics 	http://www.ks.uiuc.edu/Research/vmd/

X-PLOR Home Page 	http://xplor.csb.yale.edu/

OTHER RESOURCES

Crystallography Worldwide
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BioMoo 	http://www.cco.caltech.edu/~mercer/htmls/BioMOOHomePage.html

DALI - Comparison of Protein Structures in 3D
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NCSA Biology Workbench 	http://biology.ncsa.uiuc.edu/

MOOSE (Macromolecular Structure Database	 http://db2.sdsc.edu/moose
at San Diego Supercomputer Center)

PDB_select: Representative PDBStructures
	ftp://ftp.embl-heidelberg.de/pub/databases/protein_extras/pdb_select/recent.pdb_elect

PROCHECK - To Submit a PDB File for Analysis
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Protein Structure Verification-Biotech Server
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Resources for Macromolecular Structure Information
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The Virtual School of Molecular Sciences
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Weizmann Institute, Genome and Bioinformatics 	http://bioinfo.weizmann.ac.il/

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