Hho1p GI and GII domain structres'

About This Presentation

Title:

Hho1p GI and GII domain structres'

Description:

The CcpNmr Software Suite. 4th CCPN Annual Conference. Ambleside, 16 August 2004 ... Bug fixes. Wish lists. Notification of releases. Acknowledgements ... – PowerPoint PPT presentation

Number of Views:39

Avg rating:3.0/5.0

Slides: 14

Provided by: timst7

Category:

more less

Transcript and Presenter's Notes

Title: Hho1p GI and GII domain structres'

1
The CcpNmr Software Suite 4th CCPN Annual
Conference Ambleside, 16 August 2004 Wayne
Boucher and Tim Stevens Cambridge University
2
CcpNmr Analysis

An efficient NMR assignment program
Inspired by Ansig and Sparky
Based on the CCPN NMR data model
Cross platform
Linux, Mac OSX, SGI, Solaris
Scalable and extensible
A universal platform for assignment
Releases
1.0 b, September 2003
1.0, Autumn 2004

3
NMR Data

Experiments, spectra, peaks
Molecular system information
Complexes, chains, residues, disulphides
Assignment information
Including incomplete and ambiguous
NMR measurements
Chemical shift, relaxation rates, couplings
Constraints for structure calculations
Distance, dihedral
Resonance is central

Experiment Spectra Conditions
Measurement Chemical Shift Relaxation Coupling
Constraint Distance Dihedral
Peak Dimensions
Resonance
Annotation Spin System Connectivity Residue Type
Structure Co-ordinates
Molecule Atoms Residues Chains
4
Spectra

N-dimensional windows
Multiple spectra per window
Automatic spectrum mapping
Unlimited windows
Contours on fly
Peak aliasing
Linked navigation
Gradient colour schemes
Right mouse button menu
Keyboard shortcuts
Blocked data (Azara, Felix, NmrPipe, UCSF)
Hard copy (PostScript, PDF)

5
Assignment Strategies

Anonymous and intermediate
Fully anonymous - project start
Atom type only
Residue type only
Can assign to multiple contributions
Ambiguous NOES
Unresolvable chemical shifts
Choose from short resonance list
Ranked by shift difference, distance given a
structure etc
Can assign multiple peaks easily
e.g. All of a spin system to its backbone root

6
Resonances

An assignable phenomenon
Not atoms
Not chemical shifts
Multiple chemical shifts
Different conditions
Same origin
Multiple and ambiguous atoms
Equivalency e.g. methyl
Prochirals e.g Hb2 or Hb3?

Molecule information from the EBIs Macromolecular
Structure Database group
E-MSD relational database contains all PDB
information
Over 4000 reference chemical components defined
E.g. ALA, ADP, Zn,
Easily extendable to full range of organic
molecules
Recognises standard codes used in PDB files

8
Chemical Shift References

Available within CcpNmr software
Graphs and tables of distributions
Available for automated assignment
Automatically generated
With a single, distributed script
From BMRB files

9
Extensibility

Python macro scripts
Can be imported into the Analysis menu
Embedded applications
Format Converter, Clouds
Use high-level function libraries
Assignment, constraints, structure, molecules...
Removes the need for detailed data model
interaction
Takes care of bookkeeping

10
CcpNmr FormatConverter

Imports and exports
Sequences, peak lists, chemical shift lists,
constraint lists, coordinates
Fully or partly handles
Ansig, CNS/XPLOR/ARIA, Diana/Dyana/Cyana, NMRStar
(v2.1.1, v3.0), NmrView, Pdb, Pipp, Pronto,
Sparky, XEasy
Available and extensively tested
Command line only
Stand alone GUI
Embedded in Analysis

11
CcpNmr Clouds
Spectra
Pick Peaks, Link Shifts Combine
Pick Peaks Normalise

An automated assignment and structure calculation
strategy
Based upon the spatial distribution of anonymous
atoms generated with NOE information
Implementation of existing software
Interface existing code
Re-written code modules
Integration within CcpNmr
An Analysis module
Functional platform
Distribution network
Import/export with FormatConverter

Spin Systems
NOE intensities
Relaxation Matrix Optimisation
Distance Constraints
Hydrogen Atom Molecular Dynamics
Proton Clouds
Chain Fitting Molecular Replacement
Chain Assignment
Full Structure Calculation
Protein Structure
12
URLs