From deep TLS validation to ensembles of atomic models built from elemental motions. II. Analysis of TLS refinement results by explicit interpretation

机译：从深入的TLS验证到从元素运动构建的原子模型的集成。二。通过显式解释分析TLS细化结果

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摘要

TLS modelling was developed by Schomaker and Trueblood to describe atomic displacement parameters through concerted (rigid-body) harmonic motions of an atomic group [Schomaker & Trueblood (1968), Acta Cryst. B>24, 63–76]. The results of a TLS refinement are >T, >L and >S matrices that provide individual anisotropic atomic displacement parameters (ADPs) for all atoms belonging to the group. These ADPs can be calculated analytically using a formula that relates the elements of the TLS matrices to atomic parameters. Alternatively, ADPs can be obtained numerically from the parameters of concerted atomic motions corresponding to the TLS matrices. Both procedures are expected to produce the same ADP values and therefore can be used to assess the results of TLS refinement. Here, the implementation of this approach in PHENIX is described and several illustrations, including the use of all models from the PDB that have been subjected to TLS refinement, are provided.

机译：TLS建模由Schomaker和Trueblood开发，用于通过原子团的协调（刚体）谐波运动描述原子位移参数[Schomaker＆Trueblood（1968），Acta Cryst。 B > 24 ，63-76]。 TLS细化的结果是> T ，> L 和> S 矩阵，这些矩阵为属于原子的所有原子提供了单独的各向异性原子位移参数（ADP）。组。可以使用将TLS矩阵的元素与原子参数相关联的公式来解析计算这些ADP。或者，可以从与TLS矩阵相对应的协调原子运动的参数从数值上获得ADP。预计这两个过程将产生相同的ADP值，因此可用于评估TLS细化的结果。这里，描述了PHENIX中此方法的实现，并提供了一些说明，包括使用来自PDB的经过TLS细化的所有模型。

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期刊名称 Acta Crystallographica. Section D Structural Biology
作者
Pavel V. Afonine; Paul D. Adams; Alexandre Urzhumtsev;
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作者单位

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年(卷),期 -1(74),Pt 7
年度 -1
页码 621–631
总页数 11
原文格式 PDF
正文语种
中图分类生物学;
关键词
TLS model TLS refinement atomic displacement parameters rigid-body motion ensemble of atomic models atomic model validation PDB;

机译：TLS模型;TLS改进;原子位移参数;刚体运动;原子模型集合;原子模型验证;PDB;

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专利

1. From deep TLS validation to ensembles of atomic models built from elemental motions (vol 71, pg 1668, 2015) [J] . Urzhumtsev Alexandre, Afonine Pavel V., Van Benschoten Andrew H., Acta crystallographica. Section F, Structural biology communications . 2016,第9期

机译：从深入的TLS验证到元素动作建造的原子模型的验证（Vol 71，PG 1668,2015）
2. From deep TLS validation to ensembles of atomic models built from elemental motions [J] . Urzhumtsev Alexandre, Afonine Pavel V., Van Benschoten Andrew H., Acta crystallographica. Section F, Structural biology communications . 2015,第8期

机译：从深入的TLS验证到元素动作建造的原子模型的合奏
3. Analysis of structural dynamics in the ribosome by TLS crystallographic refinement [J] . Korostelev A, Noller HF Journal of Molecular Biology . 2007,第4期

机译：TLS晶体学细化分析核糖体中的结构动力学
4. Incremental ABV for functional validation of TL-to-RTL design refinement [C] . Nicola Bombieri, Franco Fummi, Graziano Pravadelli, EDBT/ICDT Workshops . 2009

机译：增量ABV用于TL-to-RTL设计改进的功能验证
5. From deep TLS validation to ensembles of atomic models built from elemental motions. Addenda and corrigendum [O] . Alexandre Urzhumtsev, Pavel V. Afonine, Andrew H. Van Benschoten, -1

机译：从深入的TLS验证到从元素运动构建的原子模型的集成。附录和更正
6. From deep TLS validation to ensembles of atomic models built from elemental motions. II. Analysis of TLS refinement results by explicit interpretation [O] . Pavel V. Afonine, Paul D. Adams, Alexandre Urzhumtsev 2018

机译：从深入的TLS验证到元素动作建造的原子模型的合奏。 II。明确解释分析TLS细化结果

From deep TLS validation to ensembles of atomic models built from elemental motions. II. Analysis of TLS refinement results by explicit interpretation

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