Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex

[Image: see text] We report here specialized functions incorporated recently in the rigid-body docking software toolkit TagDock to utilize electron paramagnetic resonance derived (EPR-derived) interresidue distance measurements and spin-label accessibility data. The TagDock package extensions includ...

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Autores principales: Edwards, Sarah J., Moth, Christopher W., Kim, Sunghoon, Brandon, Suzanne, Zhou, Zheng, Cobb, Charles E., Hustedt, Eric J., Beth, Albert H., Smith, Jarrod A., Lybrand, Terry P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2014
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4018176/
https://www.ncbi.nlm.nih.gov/pubmed/24758720
http://dx.doi.org/10.1021/jp4099705
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author Edwards, Sarah J.
Moth, Christopher W.
Kim, Sunghoon
Brandon, Suzanne
Zhou, Zheng
Cobb, Charles E.
Hustedt, Eric J.
Beth, Albert H.
Smith, Jarrod A.
Lybrand, Terry P.
author_facet Edwards, Sarah J.
Moth, Christopher W.
Kim, Sunghoon
Brandon, Suzanne
Zhou, Zheng
Cobb, Charles E.
Hustedt, Eric J.
Beth, Albert H.
Smith, Jarrod A.
Lybrand, Terry P.
author_sort Edwards, Sarah J.
collection PubMed
description [Image: see text] We report here specialized functions incorporated recently in the rigid-body docking software toolkit TagDock to utilize electron paramagnetic resonance derived (EPR-derived) interresidue distance measurements and spin-label accessibility data. The TagDock package extensions include a custom methanethiosulfonate spin label rotamer library to enable explicit, all-atom spin-label side-chain modeling and scripts to evaluate spin-label surface accessibility. These software enhancements enable us to better utilize the biophysical data routinely available from various spin-labeling experiments. To illustrate the power and utility of these tools, we report the refinement of an ankyrin:CDB3 complex model that exhibits much improved agreement with the EPR distance measurements, compared to model structures published previously.
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spelling pubmed-40181762015-04-11 Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex Edwards, Sarah J. Moth, Christopher W. Kim, Sunghoon Brandon, Suzanne Zhou, Zheng Cobb, Charles E. Hustedt, Eric J. Beth, Albert H. Smith, Jarrod A. Lybrand, Terry P. J Phys Chem B [Image: see text] We report here specialized functions incorporated recently in the rigid-body docking software toolkit TagDock to utilize electron paramagnetic resonance derived (EPR-derived) interresidue distance measurements and spin-label accessibility data. The TagDock package extensions include a custom methanethiosulfonate spin label rotamer library to enable explicit, all-atom spin-label side-chain modeling and scripts to evaluate spin-label surface accessibility. These software enhancements enable us to better utilize the biophysical data routinely available from various spin-labeling experiments. To illustrate the power and utility of these tools, we report the refinement of an ankyrin:CDB3 complex model that exhibits much improved agreement with the EPR distance measurements, compared to model structures published previously. American Chemical Society 2014-04-11 2014-05-08 /pmc/articles/PMC4018176/ /pubmed/24758720 http://dx.doi.org/10.1021/jp4099705 Text en Copyright © 2014 American Chemical Society
spellingShingle Edwards, Sarah J.
Moth, Christopher W.
Kim, Sunghoon
Brandon, Suzanne
Zhou, Zheng
Cobb, Charles E.
Hustedt, Eric J.
Beth, Albert H.
Smith, Jarrod A.
Lybrand, Terry P.
Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex
title Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex
title_full Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex
title_fullStr Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex
title_full_unstemmed Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex
title_short Automated Structure Refinement for a Protein Heterodimer Complex Using Limited EPR Spectroscopic Data and a Rigid-Body Docking Algorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex
title_sort automated structure refinement for a protein heterodimer complex using limited epr spectroscopic data and a rigid-body docking algorithm: a three-dimensional model for an ankyrin-cdb3 complex
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4018176/
https://www.ncbi.nlm.nih.gov/pubmed/24758720
http://dx.doi.org/10.1021/jp4099705
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