代谢组学的多变量分析。

Bradley Worley, Robert Powers
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引用次数: 936

摘要

代谢组学旨在提供细胞和生物体液中所有小分子代谢物的全球快照,而不受更集中的代谢研究固有的观察偏差的影响。然而,这种全球分析的信息量高得惊人,这本身也带来了挑战;有效地从任何给定的代谢组学数据集形成生物学相关的结论确实需要专门形式的数据分析。在代谢组学数据集中寻找意义的一种方法涉及多变量分析(MVA)方法,如主成分分析(PCA)和潜在结构的偏最小二乘投影(PLS),其中确定对变异或分离贡献最大的光谱特征以供进一步分析。然而,与任何数学处理一样,这些方法不是万灵药;这篇综述讨论了代谢组学多变量分析的使用,以及常见的陷阱和误解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multivariate Analysis in Metabolomics.

Multivariate Analysis in Metabolomics.

Metabolomics aims to provide a global snapshot of all small-molecule metabolites in cells and biological fluids, free of observational biases inherent to more focused studies of metabolism. However, the staggeringly high information content of such global analyses introduces a challenge of its own; efficiently forming biologically relevant conclusions from any given metabolomics dataset indeed requires specialized forms of data analysis. One approach to finding meaning in metabolomics datasets involves multivariate analysis (MVA) methods such as principal component analysis (PCA) and partial least squares projection to latent structures (PLS), where spectral features contributing most to variation or separation are identified for further analysis. However, as with any mathematical treatment, these methods are not a panacea; this review discusses the use of multivariate analysis for metabolomics, as well as common pitfalls and misconceptions.

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