从Biolog实验的时间序列中识别多个潜在代谢循环

Shubin Mikhail, Schaufler Katharina, Tedin Karsten, Vehkala Minna, Corander Jukka

Department of Mathematics and Statistics, University of Helsinki, Helsinki, Finland.

Institute of Microbiology and Epizootics, Freie Univerität Berlin, Berlin, Germany.

PLoS One. 2016 Sep 27;11(9):e0162276. doi: 10.1371/journal.pone.0162276. eCollection 2016.

Biolog Phenotype Microarray (PM) is a technology allowing simultaneous screening of the metabolic behaviour of bacteria under a large number of different conditions. Bacteria may often undergo several cycles of metabolic activity during a Biolog experiment. We introduce a novel algorithm to identify these metabolic cycles in PM experimental data, thus increasing the potential of PM technology in microbiology. Our method is based on a statistical decomposition of the time-series measurements into a set of growth models. We show that the method is robust to measurement noise and captures accurately the biologically relevant signals from the data. Our implementation is made freely available as a part of an R package for PM data analysis and can be found at www.helsinki.fi/bsg/software/Biolog_Decomposition.

生物表型微阵列（PM）是一种能够在大量不同条件下同时筛选细菌代谢行为的技术。在生物表型微阵列实验中，细菌通常可能经历多个代谢活动周期。我们引入了一种新颖的算法来识别PM实验数据中的这些代谢周期，从而提高了PM技术在微生物学中的潜力。我们的方法基于将时间序列测量值进行统计分解为一组生长模型。我们表明该方法对测量噪声具有鲁棒性，并能准确地从数据中捕获生物学相关信号。我们的实现作为用于PM数据分析的R包的一部分可免费获取，可在www.helsinki.fi/bsg/software/Biolog_Decomposition上找到。