Related ArticlesNightShift: NMR Shift Inference by General Hybrid Model Training - a Framework for NMR Chemical Shift Prediction.
BMC Bioinformatics. 2013 Mar 16;14(1):98
Authors: Dehof AK, Loew S, Lenhof HP, Hildebrandt A
Abstract
NMR chemical shift prediction plays an important role in various applications in computational biology. Among others, structure determination, structure optimization, and the scoring of docking results can profit from efficient and accurate chemical shift estimation from a three-dimensional model. A variety of NMR chemical shift prediction approaches have been presented in the past, but nearly all of these rely on laborious manual data set preparation and the training itself is not automatized, making retraining the model, e.g., if new data is made available, or testing new models a time-consuming manual chore. In this work, we present a framework which enables automated data set generation as well as model training and evaluation of protein NMR chemical shift prediction. To this end, we extend the classical ansatz of hybrid protein chemical shift prediction by training a statistical model with semi-classical as well as various structural features. We present three main results: (a) the NightShift framework itself as well as (b) the resulting, automatically generated, data set and (c) a random forest model called Spinster that was built using the pipeline. We will demonstrate that the performance of the automatically generated random forest-based model exceeds former approaches for several atom types. The framework can be downloaded from https://bitbucket.org/akdehof/\\ballaxy-tools/ and requires version 1.4.1 of the open source Biochemical Algorithms Library (BALL). It is available under the conditions of the GNU Lesser General Public License (LGPL). We additionally offer a browser-based user interface to our NightShift instance employing the Galaxy framework via https://ballaxy.bioinf.uni-sb.de/.
PMID: 23496927 [PubMed - as supplied by publisher]
Improved chemical shift prediction by Rosetta conformational sampling
Improved chemical shift prediction by Rosetta conformational sampling
Abstract Chemical shift frequencies represent a time-average of all the conformational states populated by a protein. Thus, chemical shift prediction programs based on sequence and database analysis yield higher accuracy for rigid rather than flexible protein segments. Here we show that the prediction accuracy can be significantly improved by averaging over an ensemble of structures, predicted solely from amino acid sequence with the Rosetta program. This approach to chemical shift and structure prediction has the...
nmrlearner
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09-29-2012 11:56 AM
Chemical shift prediction for protein structure calculation and quality assessment using an optimally parameterized force field
Chemical shift prediction for protein structure calculation and quality assessment using an optimally parameterized force field
Publication year: 2012
Source:Progress in Nuclear Magnetic Resonance Spectroscopy, Volume 60</br>
Jakob T. Nielsen, Hamid R. Eghbalnia, Niels Chr. Nielsen</br>
The exquisite sensitivity of chemical shifts as reporters of structural information, and the ability to measure them routinely and accurately, gives great import to formulations that elucidate the structure-chemical-shift relationship. Here we present a new and highly accurate, precise,...
nmrlearner
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03-09-2012 09:16 AM
SHIFTX2: Chemical Shift Prediction
SHIFTX2 website
SHIFTX2 is capable of rapidly and accurately calculating diamagnetic 1H, 13C and 15N chemical shifts from protein coordinate data. Compared to its predecessor (SHIFTX) and to other existing protein chemical shift prediction programs, SHIFTX2 is substantially more accurate (up to 26% better by correlation coefficient with an RMS error that is up to 3.3× smaller) than the next best performing program. It also provides significantly more coverage (up to 10% more), is significantly faster (up to 8.5×) and capable of calculating a wider variety of backbone and side chain...
gwnmr
NMR software
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01-10-2012 06:13 PM
SHIFTX2: significantly improved protein chemical shift prediction
SHIFTX2: significantly improved protein chemical shift prediction
Abstract A new computer program, called SHIFTX2, is described which is capable of rapidly and accurately calculating diamagnetic 1H, 13C and 15N chemical shifts from protein coordinate data. Compared to its predecessor (SHIFTX) and to other existing protein chemical shift prediction programs, SHIFTX2 is substantially more accurate (up to 26% better by correlation coefficient with an RMS error that is up to 3.3Ã? smaller) than the next best performing program. It also provides significantly more coverage (up to 10% more),...
nmrlearner
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04-01-2011 09:31 PM
Protein secondary structure prediction using NMR chemical shift data.
Protein secondary structure prediction using NMR chemical shift data.
Related Articles Protein secondary structure prediction using NMR chemical shift data.
J Bioinform Comput Biol. 2010 Oct;8(5):867-84
Authors: Zhao Y, Alipanahi B, Li SC, Li M
Accurate determination of protein secondary structure from the chemical shift information is a key step for NMR tertiary structure determination. Relatively few work has been done on this subject. There needs to be a systematic investigation of algorithms that are (a) robust for large datasets; (b)...
nmrlearner
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10-29-2010 07:05 PM
SPARTA+: a modest improvement in empirical NMR chemical shift prediction by means of
Abstract NMR chemical shifts provide important local structural information for proteins and are key in recently described protein structure generation protocols. We describe a new chemical shift prediction program, SPARTA+, which is based on artificial neural networking. The neural network is trained on a large carefully pruned database, containing 580 proteins for which high-resolution X-ray structures and nearly complete backbone and 13Cβ chemical shifts are available. The neural network is trained to establish quantitative relations between chemical shifts and protein structures,...
nmrlearner
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08-14-2010 04:19 AM
Chemical shift prediction in random coil peptides
Please check this program and let me know if it does work for your random coil peptides.
http://bloch.anu.edu.au/cgi-bin/shiftpred/shiftpred.cgi
Thank you,
Bogdan Bancia
bbancia@yahoo.com
bbancia
NMR software
2
04-13-2007 03:54 PM
chemical shift anisotropy (CSA) in model-free approach
Hi !
I have a quite general question about the value used for the CSA while studying protein dynamics of 15N-1H vectors with model-free approach.
In the litterature, we mainly find two values for the CSA (-160 and -172 ppm).
There is, if I understand well, a link between the bond length and the CSA, but everyone seems to agree about using the same value of 1.02 A which should give rise to a mean S2 of 0.85 for secondary structure when combined to a CSA of -172 ppm. When using a CSA of -160 ppm, the mean S2 for secondary structure should slightly rise up from 0.85.
The manuals for...
NightShift: NMR Shift Inference by General Hybrid Model Training - a Framework for NMR Chemical Shift Prediction.
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