AlignScope:一个可视化的挖掘工具,用于基因团队发现与全基因组比对

Hee-Jeong Jin, Hyeno Kim, Jeong-Hyeon Choi, Hwan-Gue Cho
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引用次数: 2

摘要

比较基因组学的一个主要问题是研究一个或多个相关物种的染色体基因顺序。最近,在几个基因组中识别同源基因组变得越来越重要,因为一组相似的基因可以帮助我们预测未知基因的功能。为此,全基因组比对通常用于确定两个相关基因组之间的水平基因转移、基因复制和基因丢失。同时,一种新的全基因组比对的可视化工具对于理解基因组组织和进化过程是非常有用的。在本文中,我们提出了一种全基因组比对的识别和可视化方法,特别是用于检测两个比对基因组之间的基因簇。由于目前用于寻找基因簇的严格算法具有强而人为的约束,因此它们不适用于处理“噪声”比对。我们开发了AlignScope系统,为任何水平的基因组比对提供了一个简化的结构,也帮助我们找到基因簇。在这个实验中,我们在几个微生物基因组上测试了AlignScope。对齐是通过搜索序列中相同顺序的一系列单个字符或字符模式来比较两个或多个序列的过程。这一过程有助于指定未知蛋白质的功能,确定生物体的相关性,识别结构和功能上重要的元素和其他有用的功能。[9,12]许多差别很大的生物都是通过所谓的进化过程从一个共同的祖先进化而来的。这些生物的遗传模式和多样性对小型和大规模进化事件的性质具有重要的信息。基因组的复杂性和大小使其难以分析。由于基因组可视化过程中存在大量的生物噪声,简单地绘制各种基因组的排列对是不够的。因此,比对可视化工具需要提供一种在任何细节水平上以简化形式查看全基因组比对全局结构的方法。图1清楚地说明了这个问题。在图1中,快照的分辨率为800 × 600像素,因此一个像素对应一个给定基因组序列的大约6000个碱基。目前有几种可视化基因组排列的系统。NCBI地图查看器14提供了NCBI地图上生物特征的图形显示
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AlignScope: A Visual Mining Tool for Gene Team Finding with Whole Genome Alignment
One of the main issues in comparative genomics is the study of chromosomal gene order in one or more related species. Recently identifying sets of orthologous genes in several genomes has become getting important, since a cluster of similar genes helps us to predict the function of unknown genes. For this purpose, the whole genome alignment is usually used to determine horizontal gene transfer, gene duplication, and gene loss between two related genomes. Also it is well known that a novel visualization tool of the whole genome alignment would be very useful for understanding genome organization and the evolutionary process. In this paper, we propose a method for identifying and visualizing the alignment of the whole genome alignment, especially for detecting gene clusters between two aligned genomes. Since the current rigorous algorithm for finding gene clusters has strong and artificial constraints, they are not useful for coping with “noisy” alignments. We developed the system AlignScope to provide a simplified structure for genome alignment at any level, and also to help us to find gene clusters. In this experiment, we have tested AlignScope on several microbial genomes. Alignment is a procedure that compares two or more sequences by searching for a series of individual characters or character patterns that are in the same order in the sequences. This procedure assists in designating the functions of unknown proteins, determining the relatedness of organisms, and identifying structurally and functionally important elements and other useful functions. 9;12 Many widely divergent organisms are descended from a common ancestor through a process called evolution. The inheritance patterns and diversities of these organisms have significant information regarding the nature of small and large-scale evolutionary events. The complexity and the size of the genome make it difficult to analyze. Because the large amount of biological noises is present when visualizing genomes, it is not enough to simply draw the aligned pairs of various genomes. Therefore an alignment visualization tool needs to provide a method for viewing the global structure of whole genome alignment in a simplified form at any level of detail. Figure-1 clearly illustrates this problem. In Figure-1, the resolution of the snapshot is 800 by 600 pixels, so one pixel corresponds about 6000 bases of a given genome sequence. Currently there are several systems for visualizing the alignment of genomes. The NCBI Map Viewer 14 provides graphical displays of biological features on NCBI’s as
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