Comprehensive microbiome causal mediation analysis using MiMed on user-friendly web interfaces.

IF 2.5 Q3 BIOCHEMICAL RESEARCH METHODS
Biology Methods and Protocols Pub Date : 2023-10-04 eCollection Date: 2023-01-01 DOI:10.1093/biomethods/bpad023
Hyojung Jang, Solha Park, Hyunwook Koh
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引用次数: 1

Abstract

It is a central goal of human microbiome studies to see the roles of the microbiome as a mediator that transmits environmental, behavioral, or medical exposures to health or disease outcomes. Yet, mediation analysis is not used as much as it should be. One reason is because of the lack of carefully planned routines, compilers, and automated computing systems for microbiome mediation analysis (MiMed) to perform a series of data processing, diversity calculation, data normalization, downstream data analysis, and visualizations. Many researchers in various disciplines (e.g. clinicians, public health practitioners, and biologists) are not also familiar with related statistical methods and programming languages on command-line interfaces. Thus, in this article, we introduce a web cloud computing platform, named as MiMed, that enables comprehensive MiMed on user-friendly web interfaces. The main features of MiMed are as follows. First, MiMed can survey the microbiome in various spheres (i) as a whole microbial ecosystem using different ecological measures (e.g. alpha- and beta-diversity indices) or (ii) as individual microbial taxa (e.g. phyla, classes, orders, families, genera, and species) using different data normalization methods. Second, MiMed enables covariate-adjusted analysis to control for potential confounding factors (e.g. age and gender), which is essential to enhance the causality of the results, especially for observational studies. Third, MiMed enables a breadth of statistical inferences in both mediation effect estimation and significance testing. Fourth, MiMed provides flexible and easy-to-use data processing and analytic modules and creates nice graphical representations. Finally, MiMed employs ChatGPT to search for what has been known about the microbial taxa that are found significantly as mediators using artificial intelligence technologies. For demonstration purposes, we applied MiMed to the study on the mediating roles of oral microbiome in subgingival niches between e-cigarette smoking and gingival inflammation. MiMed is freely available on our web server (http://mimed.micloud.kr).

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在用户友好的网络界面上使用MiMed进行全面的微生物组因果中介分析。
人类微生物组研究的中心目标是了解微生物组作为媒介的作用,将环境、行为或医学暴露传递给健康或疾病结果。然而,中介分析并没有得到应有的使用。其中一个原因是,微生物组中介分析(MiMed)缺乏精心规划的例程、编译器和自动化计算系统,无法执行一系列数据处理、多样性计算、数据规范化、下游数据分析和可视化。许多不同学科的研究人员(如临床医生、公共卫生从业者和生物学家)也不熟悉命令行界面上的相关统计方法和编程语言。因此,在本文中,我们介绍了一个名为MiMed的web云计算平台,它可以在用户友好的web界面上实现全面的MiMed。MiMed的主要特点如下。首先,MiMed可以调查各个领域的微生物组(i)使用不同的生态指标(如α和β多样性指数)作为整个微生物生态系统,或(ii)使用不同数据标准化方法作为单个微生物类群(如门、纲、目、科、属和种)。其次,MiMed能够进行协变量调整分析,以控制潜在的混杂因素(如年龄和性别),这对于增强结果的因果关系至关重要,尤其是对于观察性研究。第三,MiMed能够在中介效应估计和显著性测试中实现广泛的统计推断。第四,MiMed提供了灵活易用的数据处理和分析模块,并创建了漂亮的图形表示。最后,MiMed使用ChatGPT来搜索已知的微生物类群,这些微生物类群使用人工智能技术被发现是重要的媒介。出于示范目的,我们将MiMed应用于研究口腔微生物组在电子烟吸烟和牙龈炎症之间的龈下生态位中的中介作用。MiMed在我们的网络服务器上免费提供(http://mimed.micloud.kr)。
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
Biology Methods and Protocols
Biology Methods and Protocols Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
3.80
自引率
2.80%
发文量
28
审稿时长
19 weeks
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