Selective methyl labeling is an extremely powerful approach to study the structure, dynamics and function of biomolecules by NMR. Despite spectacular progress in the field, such studies remain rather limited in number. One of the main obstacles remains the assignment of the methyl resonances, which is labor intensive and error prone. Typically, NOESY crosspeak patterns are manually correlated to the available crystal structure or an in silico template model of the protein. Here, we propose methyl assignment by graphing inference construct, an exhaustive search algorithm with no peak network definition requirement. In order to overcome the combinatorial problem, the exhaustive search is performed locally, i.e. for a small number of methyls connected through-space according to experimental 3D methyl NOESY data. The local network approach drastically reduces the search space. Only the best local assignments are combined together to provide the final output. Assignments that match the data with comparable scores are made available to the user for cross-validation by additional experiments such as methyl-amide NOEs. Several NMR datasets for proteins in the 25â??50Â*kDa range were used during development and for performance evaluation against the manually assigned data. We show that the algorithm is robust, reliable and greatly speeds up the methyl assignment task.
[NMR paper] Automatic Assignment of Methyl-NMR Spectra of Supramolecular Machines Using Graph Theory.
Automatic Assignment of Methyl-NMR Spectra of Supramolecular Machines Using Graph Theory.
Related Articles Automatic Assignment of Methyl-NMR Spectra of Supramolecular Machines Using Graph Theory.
J Am Chem Soc. 2017 Jul 10;:
Authors: Pritišanac I, Degiacomi MT, Alderson TR, Carneiro MG, Ab E, Siegal G, Baldwin AJ
Abstract
Methyl groups are powerful probes for the analysis of structure, dynamics and function of supramolecular assemblies, using both solution- and solid-state NMR. Widespread application of the methodology has been...
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07-12-2017 12:48 AM
Automatic Assignment of Methyl-NMR Spectra of Supramolecular Machines Using Graph Theory
Automatic Assignment of Methyl-NMR Spectra of Supramolecular Machines Using Graph Theory
Iva Pritis?anac, Matteo T. Degiacomi, T. Reid Alderson, Marta G. Carneiro, Eiso AB, Gregg Siegal and Andrew J. Baldwin
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/jacs.6b11358/20170710/images/medium/ja-2016-11358e_0008.gif
Journal of the American Chemical Society
DOI: 10.1021/jacs.6b11358
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA
http://feeds.feedburner.com/~r/acs/jacsat/~4/VuC8AlNsrfs
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07-11-2017 09:20 AM
Amino acid recognition for automatic resonance assignment of intrinsically disordered proteins
Amino acid recognition for automatic resonance assignment of intrinsically disordered proteins
Abstract
Resonance assignment is a prerequisite for almost any NMR-based study of proteins. It can be very challenging in some cases, however, due to the nature of the protein under investigation. This is the case with intrinsically disordered proteins, for example, whose NMR spectra suffer from low chemical shifts dispersion and generally low resolution. For these systems, sequence specific assignment is highly time-consuming, so the prospect of using...
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02-19-2016 08:39 AM
FLAMEnGO 2.0: An Enhanced Fuzzy Logic Algorithm for Structure-Based Assignment of Methyl Group Resonances
FLAMEnGO 2.0: An Enhanced Fuzzy Logic Algorithm for Structure-Based Assignment of Methyl Group Resonances
Publication date: Available online 2 May 2014
Source:Journal of Magnetic Resonance</br>
Author(s): Fa-An Chao , Jonggul Kim , Youlin Xia , Michael Milligan , Nancy Rowe , Gianluigi Veglia</br>
We present an enhanced version of the FLAMEnGO (Fuzzy Logic Assignment of Methyl Group) software, a structure-based method to assign methyl group resonances in large proteins. FLAMEnGO utilizes a fuzzy logic algorithm coupled with Monte Carlo sampling to obtain a...
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05-02-2014 06:49 PM
Efficient Acquisition of High-Resolution 4-D Diagonal-Suppressed Methyl-Methyl NOESY for Large Proteins
Efficient Acquisition of High-Resolution 4-D Diagonal-Suppressed Methyl-Methyl NOESY for Large Proteins
Publication year: 2012
Source:Journal of Magnetic Resonance</br>
Jie Wen, Jihui Wu, Pei Zhou</br>
The methyl-methyl NOESYexperimentplays an important role in determiningthe global folds of large proteins. Despite the high sensitivity of this experiment, the analysisof methyl-methyl NOEs is frequently hindered by the limited chemical shift dispersion of methyl groups, particularly methyl protons. Thismakes it difficult to unambiguously assign all of the methyl-methyl...
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03-10-2012 10:54 AM
Automated sequence- and stereo-specific assignment of methyl-labeled proteins by paramagnetic relaxation and methylâ??methyl nuclear overhauser enhancement spectroscopy
Automated sequence- and stereo-specific assignment of methyl-labeled proteins by paramagnetic relaxation and methylâ??methyl nuclear overhauser enhancement spectroscopy
Abstract Methyl-transverse relaxation optimized spectroscopy is rapidly becoming the preferred NMR technique for probing structure and dynamics of very large proteins up to ~1 MDa in molecular size. Data interpretation, however, necessitates assignment of methyl groups which still presents a very challenging and time-consuming process. Here we demonstrate that, in combination with a known 3D structure, paramagnetic...
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09-26-2011 06:42 AM
SAGA: rapid automatic mainchain NMR assignment for large proteins
Abstract Here we describe a new algorithm for automatically determining the mainchain sequential assignment of NMR spectra for proteins. Using only the customary triple resonance experiments, assignments can be quickly found for not only small proteins having rather complete data, but also for large proteins, even when only half the residues can be assigned. The result of the calculation is not the single best assignment according to some criterion, but rather a large number of satisfactory assignments that are summarized in such a way as to help the user identify portions of the sequence...
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08-14-2010 04:19 AM
Mars - automatic backbone assignment of proteins
Link to the program
Mars - robust automatic backbone assignment of proteins.
Jung YS, Zweckstetter M. J Biomol NMR. 2004 Sep;30(1):11-23.
Abstract:
MARS is a program for robust automatic backbone assignment of 13C/15N labeled proteins. It can be applied independent of the assignment complexity, it does not require tight thresholds for establishing sequential connectivity or detailed adjustment of these thresholds, it can work with a wide variety of NMR experiments and it is robust against missing chemical shift information. In case of a known 3D structure, residual dipolar...
Automatic methyl assignment in large proteins by the MAGIC algorithm
Linear Mode
