Non-Invasive Single-Cell Morphometry in Living Bacterial Biofilms

Author:

Zhang Mingxing,Zhang Ji,Wang Yibo,Wang Jie,Achimovich Alecia M.,Acton Scott T.,Gahlmann Andreas

Abstract

AbstractFluorescence microscopy enables spatial and temporal measurements of live cells and cellular communities. However, this potential has not yet been fully realized for investigations of individual cell behaviors and phenotypic changes in dense, three-dimensional (3D) bacterial biofilms. Accurate cell detection and cellular shape measurement in densely packed biofilms are challenging because of the limited resolution and low signal to background ratios (SBRs) in fluorescence microscopy images. In this work, we present Bacterial Cell Morphometry 3D (BCM3D), an image analysis workflow that combines deep learning with mathematical image analysis to accurately segment and classify single bacterial cells in 3D fluorescence images. InBCM3D, deep convolutional neural networks (CNNs) are trained using simulated biofilm images with experimentally realistic SBRs, cell densities, labeling methods, and cell shapes. We systematically evaluate the segmentation accuracy ofBCM3Dusing both simulated and experimental images. Compared to state-of-the-art bacterial cell segmentation approaches,BCM3Dconsistently achieves higher segmentation accuracy and further enables automated morphometric cell classifications in multi-population biofilms.

Publisher

Cold Spring Harbor Laboratory

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