Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.

Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.

The process of resonance assignment is fundamental to most NMR studies of protein structure and dynamics. Unfortunately, the manual assignment of residues is tedious and time-consuming, and can represent a significant bottleneck for further characterization. Furthermore, while automated approaches h...

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Main Authors: Markus Niklasson, Alexandra Ahlner, Cecilia Andresen, Joseph A Marsh, Patrik Lundström
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS Computational Biology
Online Access:http://europepmc.org/articles/PMC4288728?pdf=render
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spelling doaj-7d0c0aa6383e463d9903a1f746d309242020-11-25T01:57:42ZengPublic Library of Science (PLoS)PLoS Computational Biology1553-734X1553-73582015-01-01111e100402210.1371/journal.pcbi.1004022Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.Markus NiklassonAlexandra AhlnerCecilia AndresenJoseph A MarshPatrik LundströmThe process of resonance assignment is fundamental to most NMR studies of protein structure and dynamics. Unfortunately, the manual assignment of residues is tedious and time-consuming, and can represent a significant bottleneck for further characterization. Furthermore, while automated approaches have been developed, they are often limited in their accuracy, particularly for larger proteins. Here, we address this by introducing the software COMPASS, which, by combining automated resonance assignment with manual intervention, is able to achieve accuracy approaching that from manual assignments at greatly accelerated speeds. Moreover, by including the option to compensate for isotope shift effects in deuterated proteins, COMPASS is far more accurate for larger proteins than existing automated methods. COMPASS is an open-source project licensed under GNU General Public License and is available for download from http://www.liu.se/forskning/foass/tidigare-foass/patrik-lundstrom/software?l=en. Source code and binaries for Linux, Mac OS X and Microsoft Windows are available.http://europepmc.org/articles/PMC4288728?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Markus Niklasson
Alexandra Ahlner
Cecilia Andresen
Joseph A Marsh
Patrik Lundström
spellingShingle Markus Niklasson
Alexandra Ahlner
Cecilia Andresen
Joseph A Marsh
Patrik Lundström
Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.
PLoS Computational Biology
author_facet Markus Niklasson
Alexandra Ahlner
Cecilia Andresen
Joseph A Marsh
Patrik Lundström
author_sort Markus Niklasson
title Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.
title_short Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.
title_full Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.
title_fullStr Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.
title_full_unstemmed Fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.
title_sort fast and accurate resonance assignment of small-to-large proteins by combining automated and manual approaches.
publisher Public Library of Science (PLoS)
series PLoS Computational Biology
issn 1553-734X
1553-7358
publishDate 2015-01-01
description The process of resonance assignment is fundamental to most NMR studies of protein structure and dynamics. Unfortunately, the manual assignment of residues is tedious and time-consuming, and can represent a significant bottleneck for further characterization. Furthermore, while automated approaches have been developed, they are often limited in their accuracy, particularly for larger proteins. Here, we address this by introducing the software COMPASS, which, by combining automated resonance assignment with manual intervention, is able to achieve accuracy approaching that from manual assignments at greatly accelerated speeds. Moreover, by including the option to compensate for isotope shift effects in deuterated proteins, COMPASS is far more accurate for larger proteins than existing automated methods. COMPASS is an open-source project licensed under GNU General Public License and is available for download from http://www.liu.se/forskning/foass/tidigare-foass/patrik-lundstrom/software?l=en. Source code and binaries for Linux, Mac OS X and Microsoft Windows are available.
url http://europepmc.org/articles/PMC4288728?pdf=render
work_keys_str_mv AT markusniklasson fastandaccurateresonanceassignmentofsmalltolargeproteinsbycombiningautomatedandmanualapproaches
AT alexandraahlner fastandaccurateresonanceassignmentofsmalltolargeproteinsbycombiningautomatedandmanualapproaches
AT ceciliaandresen fastandaccurateresonanceassignmentofsmalltolargeproteinsbycombiningautomatedandmanualapproaches
AT josephamarsh fastandaccurateresonanceassignmentofsmalltolargeproteinsbycombiningautomatedandmanualapproaches
AT patriklundstrom fastandaccurateresonanceassignmentofsmalltolargeproteinsbycombiningautomatedandmanualapproaches
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