Characterizing Human Cell Types and Tissue Origin Using the Benford Law

Overview

Journal Cells

Publisher MDPI

Specialties Biochemistry
Biophysics
Cell Biology
Molecular Biology

Date 2019 Sep 1

PMID 31470662

Citations 1

Authors

Sne Morag

Mali Salmon-Divon

Affiliations

Soon will be listed here.

Abstract

Processing massive transcriptomic datasets in a meaningful manner requires novel, possibly interdisciplinary, approaches. One principle that can address this challenge is the Benford law (BL), which posits that the occurrence probability of a leading digit in a large numerical dataset decreases as its value increases. Here, we analyzed large single-cell and bulk RNA-seq datasets to test whether cell types and tissue origins can be differentiated based on the adherence of specific genes to the BL. Then, we used the Benford adherence scores of these genes as inputs to machine-learning algorithms and tested their separation accuracy. We found that genes selected based on their first-digit distributions can distinguish between cell types and tissue origins. Moreover, despite the simplicity of this novel feature-selection method, its separation accuracy is higher than that of the mean-expression level approach and is similar to that of the differential expression approach. Thus, the BL can be used to obtain biological insights from massive amounts of numerical genomics data-a capability that could be utilized in various biomedical applications, e.g., to resolve samples of unknown primary origin, identify possible sample contaminations, and provide insights into the molecular basis of cancer subtypes.

Citing Articles

Integrative Methods and Practical Challenges for Single-Cell Multi-omics.

Ma A, McDermaid A, Xu J, Chang Y, Ma Q Trends Biotechnol. 2020; 38(9):1007-1022.

PMID: 32818441 PMC: 7442857. DOI: 10.1016/j.tibtech.2020.02.013.

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