Crystallographic Databases I590 Spring 2005 Based in part on slides from John C. Huffman.

Slides:



Advertisements
Similar presentations
1 Miklós Vargyas, Judit Papp May, 2005 MarvinSpace – live demo.
Advertisements

Stephanie Harris Crystal Grid Workshop Southampton, 17 th September 2004 Development of Molecular Geometry Knowledge Bases from the Cambridge Structural.
Data Curation in Crystallography: Publisher Perspectives JISC Data Cluster Consultation Workshop CCLRC, Didcot, Oxon 10 October 2006.
Publisher perspective eBank/R4L/SPECTRa Joint Consultation Workshop London Metropole Hotel 20 October 2006.
Structure Comparison, Analysis and Validation Ton Spek National Single Crystal Facility Utrecht University.
Determination of Protein Structure. Methods for Determining Structures X-ray crystallography – uses an X-ray diffraction pattern and electron density.
3D Molecular Structures C371 Fall Morgan Algorithm (Leach & Gillet, p. 8)
Lecture 2: Crystal Symmetry
Insight into Molecular Geometry and Interactions using Small Molecule Crystallographic Data John Liebeschuetz Cambridge Crystallographic.
Recent developments 1) Tests (outlier analysis) and Bug fixing ( with Paul) 2) Regeneration of Values of Bonds and Bond-angles existing all structures.
Applications and integration with experimental data Checking your results Validating your results Structure determination from powder data calculations.
Lecture 3 – 4. October 2010 Molecular force field 1.
X-ray Diffraction (XRD) and Forensic Geology X-ray diffraction pattern for goethite X-ray diffractometer (XRD) laboratory.
2. Modeling of small systems Building the model What is the optimal conformation of a molecule? What is the relative energy of a given conformation? What.
Lecture 12 (10/30/2006) Crystallography Part 5: Internal Order and 2-D Symmetry Plane Lattices Planar Point Groups Plane Groups.
Chem Thermal Ellipsoids Remember that thermal ellipsoids can indicate problems with a refinement even when the R factors seem to indicate a reasonable.
Hanging Drop Sitting Drop Microdialysis Crystallization Screening.
Crystallographic Data Publication at Source International Union of Crystallography Peter R. Strickland and Brian McMahon IUCr 5 Abbey Square Chester CH1.
3. Crystals What defines a crystal? Atoms, lattice points, symmetry, space groups Diffraction B-factors R-factors Resolution Refinement Modeling!
The ConQuest Interface query space perform Boolean algebra with queries Boolean algebra with hit lists 2D & 3D browser for results.
Protein Primer. Outline n Protein representations n Structure of Proteins Structure of Proteins –Primary: amino acid sequence –Secondary:  -helices &
Computational Biology, Part 10 Protein Structure Prediction and Display Robert F. Murphy Copyright  1996, 1999, All rights reserved.
DNA PACKING: Distances Between DNA Molecules in Crystals Bryson W. Finklea St. John's College DIMACS REU.
DNA PACKING: Characterizing Intermolecular Contacts of DNA Bryson W. Finklea St. John's College DIMACS REU.
Protein structure prediction May 30, 2002 Quiz#4 on June 4 Learning objectives-Understand difference between primary secondary and tertiary structure.
Molecular Docking Using GOLD Tommi Suvitaival Seppo Virtanen S Basics for Biosystems of the Cell Fall 2006.
High Throughput Processing of the Structural Information of the Protein Data Bank Zoltán Szabadka, Vince Grolmusz Department of Computer Science Eötvös.
Molecular Graphics. Molecular Graphics What? PDF-4 products contain data sets with atomic coordinates. A molecular graphic package embedded in the product.
CSE Computational Science & Engineering Department CHEMICAL DATABASE SERVICE 1 Introduction to the Chemical Database Service.
Number of released entries Year. Growth of Molecular Complexity Number of Chains Year Number of Structures Containing that Number of Chains.
Bringing Structure to Biology: Small Molecules and the PDBe
Introduction to Macromolecular X-ray Crystallography Biochem 300 Borden Lacy Print and online resources: Introduction to Macromolecular X-ray Crystallography,
INTRODUCTION The COD was created in March 2003 and was built on the PDB model of open access on the Internet. It is intended that this database [1] consists.
Information Sources in Crystallography Your Logo Here Gregory K. Youngen Physics/Astronomy Librarian University of Illinois at Urbana-Champaign Gregory.
02/03/10 CSCE 769 Dihedral Angles Homayoun Valafar Department of Computer Science and Engineering, USC.
Increasing the Value of Crystallographic Databases Derived knowledge bases Knowledge-based applications programs Data mining tools for protein-ligand complexes.
EMBL-EBI Adel Golovin MSDsite The project is funded by the European Commission as the TEMBLOR, contract-no. QLRI-CT under the RTD programme.
SMART Teams: Students Modeling A Research Topic Jmol Training 101!
From Point Groups to Space Groups How to expand from a point group to a space group Special and General Positions. Complete Hermann-Maugin Notation.
 Four levels of protein structure  Linear  Sub-Structure  3D Structure  Complex Structure.
X-ray Validation Package Present status Swanand Gore PDBe D&A meeting : 21-Oct-2010.
EBI is an Outstation of the European Molecular Biology Laboratory. Annotation Procedures for Structural Data Deposited in the PDBe at EBI.
Cambridge Structural Database Crystal Structures of Small Organic and Organometallic Compounds Dr. Clifford Felder, Dept. of Structural Biology, Weizmann.
United Nations Economic Commission for Europe Statistical Division The Importance of Databases in the Dissemination Process Steven Vale, UNECE.
1. Diffraction intensity 2. Patterson map Lecture
Copyright © 2010 – MICS 2010, Curt Hill Instructor Tools: Test Data Generation Curt Hill Valley City State University.
Module 3 Protein Structure Database/Structure Analysis Learning objectives Understand how information is stored in PDB Learn how to read a PDB flat file.
Virtual Screening C371 Fall INTRODUCTION Virtual screening – Computational or in silico analog of biological screening –Score, rank, and/or filter.
CHEMISTRY APPLIED CRYSTALLOGRAPHY SPRING 2011 The Chemistry Special Topics Course in Applied Crystallography is designed to introduce chemists.
Molecular Crystals. Molecular Crystals: Consist of repeating arrays of molecules and/or ions.
Structural constrains
CCDC Tools for Mining Structural Databases Or – Building Solid Foundations for a Structure Based Design Campaign John Liebeschuetz,
COD (CRYSTALLOGRAPHY OPEN DATABASE) and PCOD (PREDICTED) COD Advisory Board : Daniel Chateigner (France), XiaoLong Chen (China), Marco E. Ciriotti (Italy),
Lecture 10 CS566 Fall Structural Bioinformatics Motivation Concepts Structure Solving Structure Comparison Structure Prediction Modeling Structural.
Molecular mechanics Classical physics, treats atoms as spheres Calculations are rapid, even for large molecules Useful for studying conformations Cannot.
Symmetry.
EBI is an Outstation of the European Molecular Biology Laboratory. A web based integrated search service to understand ligand binding and secondary structure.
Elon Yariv Graduate student in Prof. Nir Ben-Tal’s lab Department of Biochemistry and Molecular Biology, Tel Aviv University.
Afternoon session: The archival problem and infrastructure for solutions Prof John R Helliwell Interactive Publications.
PDBemotif A web based integrated search service to understand ligand binding and secondary structure properties in macromolecular structures.
Organic Chemistry Lesson 21 X-ray crystallography.
Reduce the need for human intervention in protein model building
Crystal structure determination
CRYSTAL LATTICE & UNIT CELL
Virtual Screening.
MODULE 2 - Introduction to Basic Crystallography
Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai.
Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai.
Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai.
Mr.Halavath Ramesh 16-MCH-001 Dept. of Chemistry Loyola College University of Madras-Chennai.
Presentation transcript:

Crystallographic Databases I590 Spring 2005 Based in part on slides from John C. Huffman

Crystallography Databases Significance: Complete crystallographic analysis leads to 3-dimensional structural data.

Crystallography Databases Coordinate Systems –Crystallographic coordinates –Cartesian coordinates

Crystallographic Coordinates Almost all crystallographic results are reported in this manner, with a range of 0 to 1. In the center of the unit cell, the measurement would be ½, ½, ½

Crystallographic Coordinates

Cartesian Coordinates Cartesian coordinates are reported in Angstroms, usually with the first atom at 0,0,0; second atom at x,0,0, and third atom at x,y,0. Of the major crystallographic databases, only PDB uses Cartesian coordinates.

Concept of the Unit Cell Depicts the repeating unit in a crystal structure Has 3 sides and 3 angles –Lengths are designated a, b, c –Angles are designated α, β, γ α lies between the b and c axes

Symmetry and Space Groups Crystal lattices formed from 17 plane groups, 32 point groups, 230 space groups –A point group is the complete collection of all symmetry elements passing through a central point, describing the symmetry of an individual object. –A space group is the complete collection of all symmetry elements of an infinitely repeating pattern.

Crystallography Databases Available Databases –PDB: Protein Data Bank –ICSD: Inorganic Crystal Structure Database –CSD: Cambridge Structural Database –CRYSTMET: Metals Database

PDB: Protein Data Bank Contained 16,433 Structures on October 31, 2001 Contained 30,453 structures on April 12, 2005

ICSD: Inorganic Crystal Structure Database includes pure elements, minerals, metals, and intermetallic compounds (with atomic coordinates published since 1913) contained 82,676 entries as of November 2004 updated twice a year, with each update having about 2000 new records Windows PC, Linux, & Web versions

ICSD

CSD: Cambridge Structural Database Small molecule crystal structures – –Organic molecules (including peptides up to 24 residues) –Metal-organic compounds –335,276 entries as of January 1, ,733 different compounds –Single crystal or Powder Diffraction studies –Determined by X-Ray or Neutron Diffraction

CSD Components Search and information retrieval (ConQuest) Structure visualization (Mercury) Manipulation of results and numerical analysis (Vista) Database creation (PreQuest)

Other CCDC Products Libraries of extracted molecular and intermolecular geometry information organized according to molecular fragments and functional groups –Mogul contains bond lengths, valence, and torsion angles and displays results as histograms and associated statistical data –IsoStar is a knowledge base of intermolecular interactions, containing data derived from both the CSD and the PDB, with data displayed as scatterplots or contoured maps

CCDC’s GOLD Uses a genetic algorithm to dock flexible lligands in to partially flexible protein binding sites –Uses torsion angle distributions from the CSD to restrict ligand conformations

CCDC’s Superstar Uses information on intermolecular interactions found in IsoStar to identify regions within protein cavities or around molecules where selected functional groups are likely to interact favorably.

CCDC’s Relibase+ Features detailed analysis of superimposed ligand and binding sites, ligand similarity, and substructure searches –Based on structures in the PDB and a proprietary collection that the user may have –Enables investigation of crystallographic packing effects around ligand binding sites –Includes info about bound water molecules

CIF: Crystallographic Information Format standard means of information interchange in crystallography, sponsored by the International Union of Crystallography (IUCr) CCDC program enCIFer provides an intuitive, user-friendly interface to facilitate the editing and validation of CIFsenCIFer Nearly all info submitted to the CCDC is in CIF format now

Powder Diffraction File PDF for 2004 had 355,303 entries Versions: –For Inorganic –Organic/organometallic Used for materials for which it is difficult to obtain a single crystal (e.g., metals)

Crystal Structure Viewers PDB formats can be viewed with a variety of viewers. CIF format viewers are being developed. RasMol is one of the best viewers readily available at no charge.