RAG：RNA作为图形的数据库——概念、分析及特征

RAG: RNA-As-Graphs database--concepts, analysis, and features.

作者信息

Gan Hin Hark, Fera Daniela, Zorn Julie, Shiffeldrim Nahum, Tang Michael, Laserson Uri, Kim Namhee, Schlick Tamar

机构信息

Department of Chemistry, New York University, New York, NY 10003, USA.

出版信息

Bioinformatics. 2004 May 22;20(8):1285-91. doi: 10.1093/bioinformatics/bth084. Epub 2004 Feb 12.

DOI:10.1093/bioinformatics/bth084

PMID:14962931

Abstract

MOTIVATION

Understanding RNA's structural diversity is vital for identifying novel RNA structures and pursuing RNA genomics initiatives. By classifying RNA secondary motifs based on correlations between conserved RNA secondary structures and functional properties, we offer an avenue for predicting novel motifs. Although several RNA databases exist, no comprehensive schemes are available for cataloguing the range and diversity of RNA's structural repertoire.

RESULTS

Our RNA-As-Graphs (RAG) database describes and ranks all mathematically possible (including existing and candidate) RNA secondary motifs on the basis of graphical enumeration techniques. We represent RNA secondary structures as two-dimensional graphs (networks), specifying the connectivity between RNA secondary structural elements, such as loops, bulges, stems and junctions. We archive RNA tree motifs as 'tree graphs' and other RNAs, including pseudoknots, as general 'dual graphs'. All RNA motifs are catalogued by graph vertex number (a measure of sequence length) and ranked by topological complexity. The RAG inventory immediately suggests candidates for novel RNA motifs, either naturally occurring or synthetic, and thereby might stimulate the prediction and design of novel RNA motifs.

AVAILABILITY

The database is accessible on the web at http://monod.biomath.nyu.edu/rna

摘要

动机

了解RNA的结构多样性对于识别新型RNA结构和推进RNA基因组计划至关重要。通过基于保守RNA二级结构与功能特性之间的相关性对RNA二级基序进行分类，我们提供了一种预测新型基序的途径。尽管存在多个RNA数据库，但尚无全面的方案可用于编目RNA结构库的范围和多样性。

结果

我们的RNA-As-Graphs（RAG）数据库基于图形枚举技术描述并排列了所有数学上可能的（包括现有和候选的）RNA二级基序。我们将RNA二级结构表示为二维图形（网络），指定RNA二级结构元件（如环、凸起、茎和连接点）之间的连通性。我们将RNA树状基序存档为“树状图”，将其他RNA（包括假结）存档为一般的“对偶图”。所有RNA基序均按图顶点数（一种序列长度度量）编目，并按拓扑复杂性排序。RAG清单立即为天然存在或合成的新型RNA基序提供了候选对象，从而可能刺激新型RNA基序的预测和设计。

可用性

该数据库可通过网络访问，网址为http://monod.biomath.nyu.edu/rna

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RAG：RNA作为图形的数据库——概念、分析及特征

RAG: RNA-As-Graphs database--concepts, analysis, and features.

作者信息

机构信息

出版信息

MOTIVATION

RESULTS

AVAILABILITY

动机

结果

可用性

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