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

Sarah J. Edwards; Christopher W. Moth; Sunghoon Kim

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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

机译：使用有限的EPR光谱数据和刚体对接算法对蛋白质异二聚体复合物进行自动结构修饰：锚蛋白CDB3复合物的三维模型

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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.

机译：我们在这里报告刚整合到刚体对接软件工具包TagDock中的特殊功能，以利用电子顺磁共振导出（源自EPR的）残基间距离测量结果和自旋标签可访问性数据。 TagDock软件包扩展包括一个自定义的甲硫代磺酸盐自旋标签旋转异构体库，以实现显式的全原子自旋标签侧链建模和脚本，以评估自旋标签表面的可及性。这些软件增强功能使我们能够更好地利用从各种旋转标记实验中常规获得的生物物理数据。为了说明这些工具的功能和实用性，我们报告了锚蛋白：CDB3复杂模型的改进，与先前发布的模型结构相比，该模型与EPR距离测量值的一致性大大提高。

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《The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical》 |2014年第18期|共10页
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Sarah J. Edwards; Christopher W. Moth; Sunghoon Kim;
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1. 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 [J] . Sarah J. Edwards, Christopher W. Moth, Sunghoon Kim The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2014,第18期

机译：使用有限的EPR光谱数据和刚体对接算法对蛋白质异二聚体复合物进行自动结构修饰：锚蛋白CDB3复合物的三维模型
2. Monte Carlo refinement of rigid-body protein docking structures with backbone displacement and side-chain optimization. [J] . Lorenzen S, Zhang Y Protein Science: A Publication of the Protein Society . 2007,第12期

机译：通过骨架位移和侧链优化对刚体蛋白质对接结构进行Monte Carlo精炼。
3. Refinement of rigid-body protein–protein docking using backbone and side-chain minimization with a coarse-grained model [J] . Albert Solernou, Juan Fernández-Recio Open access Bioinformatics . 2010,第2期

机译：使用主干和侧链最小化和粗粒度模型细化刚体蛋白质-蛋白质对接
4. Refinement of docked protein complex structures using evolutionary traces [C] . Akbal-Delibas Bahar, Hashmi Irina, Shehu Amarda, 2011 IEEE International Conference on Bioinformatics and Biomedicine Workshops . 2011

机译：使用进化痕迹精炼对接的蛋白质复合物结构
5. Synthetic models for the photosynthetic water oxidase: Synthesis, characterization and reactivity of the Mn(4)O(4)(Ph(2)PO(2))(6) ''cubane'' and EPR spectroscopic investigation of the (Mn(II)Mn(III)(3)(mu-OHO)L(2)(mu-CH(3)COO)(2))(M(2+))(2) class of complexes [D] . Ruettinger, Wolfgang F. 1999

机译：光合水氧化酶的合成模型：Mn（4）O（4）（Ph（2）PO（2））（6）``古巴''的合成，表征和反应性（EPN的（Mn（ II）Mn（III）（3）（mu-OHO）L（2）（mu-CH（3）COO）（2））（M（2 +））（2）类配合物
6. AutomatedStructure Refinement for a Protein HeterodimerComplex Using Limited EPR Spectroscopic Data and a Rigid-Body DockingAlgorithm: A Three-Dimensional Model for an Ankyrin-CDB3 Complex [O] . SarahJ. Edwards, Christopher W. Moth, Sunghoon Kim, -1

机译：自动化的蛋白质异二聚体的结构优化使用有限的EPR光谱数据和刚体对接的复合体算法：锚蛋白-CDB3复合物的三维模型
7. Monte Carlo refinement of rigid-body protein docking structures with backbone displacement and side-chain optimization [O] . Lorenzen, Stephan, Zhang, Yang 2007

机译：刚体蛋白质对接结构的Monte Carlo改进与主链位移和侧链优化

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

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