CABS-NMR-De novo tool for rapid global fold determination from chemical shifts, residual dipolar couplings and sparse methyl-methyl noes.
J Comput Chem. 2010 Aug 30;
Authors: Latek D, Kolinski A
Recent development of nuclear magnetic resonance (NMR) techniques provided new types of structural restraints that can be successfully used in fast and low-cost global protein fold determination. Here, we present CABS-NMR, an efficient protein modeling tool, which takes advantage of such structural restraints. The restraints are converted from original NMR data to fit the coarse grained protein representation of the C-Alpha-Beta-Side-group (CABS) algorithm. CABS is a Monte Carlo search algorithm that uses a knowledge-based force field. Its versatile structure enables a variety of protein-modeling protocols, including purely de novo folding, folding guided by restraints derived from template structures or, structure assembly based on experimental data. In particular, CABS-NMR uses the distance and angular restraints set derived from various NMR experiments. This new modeling technique was successfully tested in structure determination of 10 globular proteins of size up to 216 residues, for which sparse NMR data were available. Additional detailed analysis was performed for a S100A1 protein. Namely, we successfully predicted Nuclear Overhauser Effect signals on the basis of low-energy structures obtained from chemical shifts by CABS-NMR. It has been observed that utility of chemical shifts and other types of experimental data (i.e. residual dipolar couplings and methyl-methyl Nuclear Overhauser Effect signals) in the presented modeling pipeline depends mainly on size of a protein and complexity of its topology. In this work, we have provided tools for either post-experiment processing of various kinds of NMR data or fast and low-cost structural analysis in the still challenging field of new fold predictions. (c) 2010 Wiley Periodicals, Inc. J Comput Chem, 2010.
PMID: 20806263 [PubMed - as supplied by publisher]
Determination of the Structures of Symmetric Protein Oligomers from NMR Chemical Shifts and Residual Dipolar Couplings.
Determination of the Structures of Symmetric Protein Oligomers from NMR Chemical Shifts and Residual Dipolar Couplings.
Determination of the Structures of Symmetric Protein Oligomers from NMR Chemical Shifts and Residual Dipolar Couplings.
J Am Chem Soc. 2011 Apr 5;
Authors: Sgourakis NG, Lange OF, Dimaio F, Andre? I, Fitzkee NC, Rossi P, Montelione GT, Bax A, Baker D
Symmetric protein dimers, trimers, and higher-order cyclic oligomers play key roles in many biological processes. However, structural studies of oligomeric systems by solution NMR...
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Determination of the Structures of Symmetric Protein Oligomers from NMR Chemical Shifts and Residual Dipolar Couplings
Determination of the Structures of Symmetric Protein Oligomers from NMR Chemical Shifts and Residual Dipolar Couplings
Nikolaos G. Sgourakis, Oliver F. Lange, Frank DiMaio, Ingemar Andre?, Nicholas C. Fitzkee, Paolo Rossi, Gaetano T. Montelione, Ad Bax and David Baker
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja111318m/aop/images/medium/ja-2010-11318m_0008.gif
Journal of the American Chemical Society
DOI: 10.1021/ja111318m
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA...
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High-resolution protein structure determination starting with a global fold calculated from exact solutions to the RDC equations
High-resolution protein structure determination starting with a global fold calculated from exact solutions to the RDC equations
Abstract We present a novel structure determination approach that exploits the global orientational restraints from RDCs to resolve ambiguous NOE assignments. Unlike traditional approaches that bootstrap the initial fold from ambiguous NOE assignments, we start by using RDCs to compute accurate secondary structure element (SSE) backbones at the beginning of structure calculation. Our structure determination package, called rdc-Panda (RDC-based SSE PAcking with...
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[NMR paper] Rapid protein fold determination using unassigned NMR data.
Rapid protein fold determination using unassigned NMR data.
Related Articles Rapid protein fold determination using unassigned NMR data.
Proc Natl Acad Sci U S A. 2003 Dec 23;100(26):15404-9
Authors: Meiler J, Baker D
Experimental structure determination by x-ray crystallography and NMR spectroscopy is slow and time-consuming compared with the rate at which new protein sequences are being identified. NMR spectroscopy has the advantage of rapidly providing the structurally relevant information in the form of unassigned chemical shifts (CSs),...
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11-24-2010 09:16 PM
Rapid, Accurate and Simple Model to Predict NMR Chemical Shifts for Biological Molecu
Rapid, Accurate and Simple Model to Predict NMR Chemical Shifts for Biological Molecules.
Rapid, Accurate and Simple Model to Predict NMR Chemical Shifts for Biological Molecules.
J Phys Chem B. 2010 Nov 18;
Authors: Atieh Z, Aubert-Fre?con M, Allouche AR
We present a new model to predict chemical shifts for biological molecules. It is simple, fast, and involves a limited number of parameters. It is particularly adapted to be used in molecular dynamics studies with a molecular mechanic potential. We test the model for polyamines, which are rather...
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11-20-2010 06:01 PM
[NMR paper] An approach to global fold determination using limited NMR data from larger proteins
An approach to global fold determination using limited NMR data from larger proteins selectively protonated at specific residue types.
An approach to global fold determination using limited NMR data from larger proteins selectively protonated at specific residue types.
J Biomol NMR. 1996 Oct;8(3):360-8
Authors: Smith BO, Ito Y, Raine A, Teichmann S, Ben-Tovim L, Nietlispach D, Broadhurst RW, Terada T, Kelly M, Oschkinat H, Shibata T, Yokoyama S, Laue ED
A combination of calculation and experiment is used to demonstrate that the global fold of...
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08-22-2010 02:20 PM
[NMR paper] 1H NMR resonance assignments, secondary structure, and global fold of Apo bovine calb
1H NMR resonance assignments, secondary structure, and global fold of Apo bovine calbindin D9k.
Related Articles 1H NMR resonance assignments, secondary structure, and global fold of Apo bovine calbindin D9k.
Biochemistry. 1990 Jun 19;29(24):5752-61
Authors: Skelton NJ, Forsén S, Chazin WJ
The solution structure and dynamics of apo bovine calbindin D9k have been studied by a wide range of two-dimensional 1H nuclear magnetic resonance experiments. Due to the presence of conformational heterogeneity in the wild-type protein, the sequential...
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08-21-2010 10:48 PM
Analysis of NMR Chemical Shifts in Peptide & Protein Structure Determination-Wang '08
Analysis of NMR Chemical Shifts in Peptide and Protein Structure Determination
By Liya Wang (2008)
Amazon book description
Chemical shifts provide detailed information about non-covalent structure, solvent interactions, ionization constants, ring orientations, hydrogen bond interactions, and other phenomena. Since different chemical shift data sets are not necessarily comparable without corrections or adjustments, the applicability of statistical analysis of NMR chemical shifts to biomolecules has so far been limited. We use the term "congruent" to describe data sets that can be...
CABS-NMR-De novo tool for rapid global fold determination from chemical shifts, resid
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