人类肠道元基因组的自组织方法

Q3 Computer Science
Jianfeng Zhu, Songgang Li, Wei-Mou Zheng
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引用次数: 0

摘要

我们将细菌基因组注释的自组织方法扩展到分析人类肠道宏基因组的原始测序数据,而无需序列组装。原始方法将细菌的基因组序列划分为不等长的非重叠片段,并为每个片段分配七个“阶段”中的一个,其中一个用于非编码区,三个用于直接编码区,以指示片段起始位点的三个可能密码子位置,三个用于反向编码区。非编码阶段和6个编码阶段由64个三联体类型或“密码子用法”的两个频率表描述。一组密码子用法可以用来更新相位分配,反之亦然。在初始化阶段分配表或密码子使用表之后,迭代导致收敛阶段分配以给出基因组的注释。在宏基因组方法的扩展中,我们考虑了许多基因组类别的混合模型。然后检查来自粪便样本的Illumina基因组分析仪的总DNA测序数据,以了解人类肠道微生物组的多样性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Self-organizing Approach for the Human Gut Meta-genome
We extend the self-organizing approach for annotation of a bacterial genome to analyzing the raw sequencing data of the human gut metagenome without sequence assembling. The original approach divides the genomic sequence of a bacterium into non-overlapping segments of equal length and assigns to each segment one of seven 'phases', among which one is for the noncoding regions, three for the direct coding regions to indicate the three possible codon positions of the segment starting site, and three for the reverse coding regions. The noncoding phase and the six coding phases are described by two frequency tables of the 64 triplet types or 'codon usages'. A set of codon usages can be used to update the phase assignment and vice versa. After an initialization of phase assignment or codon usage tables, an iteration leads to a convergent phase assignment to give an annotation of the genome. In the extension of the approach to a metagenome, we consider a mixture model of a number of categories of genomes. The Illumina Genome Analyzer sequencing data of the total DNA from faecal samples are then examined to understand the diversity of the human gut microbiome.
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来源期刊
Open Bioinformatics Journal
Open Bioinformatics Journal Computer Science-Computer Science (miscellaneous)
CiteScore
2.40
自引率
0.00%
发文量
4
期刊介绍: The Open Bioinformatics Journal is an Open Access online journal, which publishes research articles, reviews/mini-reviews, letters, clinical trial studies and guest edited single topic issues in all areas of bioinformatics and computational biology. The coverage includes biomedicine, focusing on large data acquisition, analysis and curation, computational and statistical methods for the modeling and analysis of biological data, and descriptions of new algorithms and databases. The Open Bioinformatics Journal, a peer reviewed journal, is an important and reliable source of current information on the developments in the field. The emphasis will be on publishing quality articles rapidly and freely available worldwide.
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