自动链接：基于相对假设优先级的模拟逻辑从核磁共振数据中对生物聚合物进行自动顺序共振归属

AutoLink: automated sequential resonance assignment of biopolymers from NMR data by relative-hypothesis-prioritization-based simulated logic.

作者信息

Masse James E, Keller Rochus

机构信息

Department of Molecular Biology and Biophysics, ETH, Zurich 8039, Switzerland.

出版信息

J Magn Reson. 2005 May;174(1):133-51. doi: 10.1016/j.jmr.2005.01.017.

DOI:10.1016/j.jmr.2005.01.017

PMID:15809181

Abstract

We have developed a new computer algorithm for determining the backbone resonance assignments for biopolymers. The approach we have taken, relative hypothesis prioritization, is implemented as a Lua program interfaced to the recently developed computer-aided resonance assignment (CARA) program. Our program can work with virtually any spectrum type, and is especially good with NOESY data. The results of the program are displayed in an easy-to-read, color-coded, graphic representation, allowing users to assess the quality of the results in minutes. Here we report the application of the program to two RNA recognition motifs of Apobec-1 Complementation Factor. The assignment of these domains demonstrates AutoLink's ability to deliver accurate resonance assignments from very minimal data and with minimal user intervention.

摘要

我们开发了一种用于确定生物聚合物主链共振归属的新计算机算法。我们采用的方法——相对假设优先级排序，是作为一个Lua程序实现的，该程序与最近开发的计算机辅助共振归属（CARA）程序相接口。我们的程序几乎可以处理任何谱图类型，对NOESY数据尤其适用。程序结果以易于阅读的、颜色编码的图形表示形式显示，用户可以在几分钟内评估结果的质量。在此，我们报告该程序在载脂蛋白B mRNA编辑酶催化多肽样3G（APOBEC3G）互补因子的两个RNA识别基序上的应用。这些结构域的归属证明了AutoLink能够从极少的数据和极少的用户干预中提供准确的共振归属。

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自动链接：基于相对假设优先级的模拟逻辑从核磁共振数据中对生物聚合物进行自动顺序共振归属

AutoLink: automated sequential resonance assignment of biopolymers from NMR data by relative-hypothesis-prioritization-based simulated logic.

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