KombOver: Efficient k-core and K-truss based characterization of perturbations within the human gut microbiome

Q2 Computer Science
Nicolae Sapoval, Marko Tanevski, T. Treangen
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引用次数: 0

Abstract

The microbes present in the human gastrointestinal tract are regularly linked to human health and disease outcomes. Thanks to technological and methodological advances in recent years, metagenomic sequencing data, and computational methods designed to analyze metagenomic data, have contributed to improved understanding of the link between the human gut microbiome and disease. However, while numerous methods have been recently developed to extract quantitative and qualitative results from host-associated microbiome data, improved computational tools are still needed to track microbiome dynamics with short-read sequencing data. Previously we have proposed KOMB as a de novo tool for identifying copy number variations in metagenomes for characterizing microbial genome dynamics in response to perturbations. In this work, we present KombOver (KO), which includes four key contributions with respect to our previous work: (i) it scales to large microbiome study cohorts, (ii) it includes both k-core and K-truss based analysis, (iii) we provide the foundation of a theoretical understanding of the relation between various graph-based metagenome representations, and (iv) we provide an improved user experience with easier-to-run code and more descriptive outputs/results. To highlight the aforementioned benefits, we applied KO to nearly 1000 human microbiome samples, requiring less than 10 minutes and 10 GB RAM per sample to process these data. Furthermore, we highlight how graph-based approaches such as k-core and K-truss can be informative for pinpointing microbial community dynamics within a myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) cohort. KO is open source and available for download/use at: https://github.com/treangenlab/komb
KombOver:基于 K 核心和 K 桁架的人类肠道微生物群扰动高效表征技术
人类胃肠道中的微生物经常与人类健康和疾病结果联系在一起。近年来,由于技术和方法上的进步,元基因组测序数据和用于分析元基因组数据的计算方法有助于人们更好地了解人类肠道微生物组与疾病之间的联系。然而,尽管最近已开发出许多方法来从宿主相关微生物组数据中提取定量和定性结果,但仍需要改进计算工具来利用短线程测序数据跟踪微生物组动态。在此之前,我们已经提出了 KOMB 作为一种全新的工具,用于识别元基因组中的拷贝数变异,以描述微生物基因组对扰动的动态响应。在这项工作中,我们提出了 KombOver (KO),它与我们之前的工作相比有四个主要贡献:(i) 它可扩展到大型微生物组研究队列;(ii) 它包括基于 K 核和 K 桁架的分析;(iii) 我们为理解各种基于图的元基因组表示之间的关系提供了理论基础;(iv) 我们提供了更好的用户体验,代码更易于运行,输出/结果更具描述性。为了突出上述优势,我们将 KO 应用于近 1000 个人类微生物组样本,每个样本只需不到 10 分钟和 10 GB 内存就能处理这些数据。此外,我们还强调了基于图的方法(如 K-core 和 K-truss)如何为确定肌痛性脑脊髓炎/慢性疲劳综合征(ME/CFS)队列中的微生物群落动态提供信息。KO 是开放源代码,可在以下网站下载/使用: https://github.com/treangenlab/komb
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.50
自引率
0.00%
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