Paige Furman scite author profile

Quantification of phenotypic heterogeneity present amongst bacterial cells can be a challenging task. Conventionally, classification and counting of bacteria sub-populations is achieved with manual microscopy, due to the lack of alternative, high-throughput, autonomous approaches. In this work, we apply classification-type convolutional neural networks (cCNN) to classify and enumerate bacterial cell sub-populations (B. subtilis clusters). Here, we demonstrate that the accuracy of the cCNN developed in this study can be as high as 86% when trained on a relatively small dataset (81 images). We also developed a new image preprocessing algorithm, specific to fluorescent microscope images, which increases the amount of training data available for the neural network by 72 times. By summing the classified cells together, the algorithm provides a total cell count which is on parity with manual counting, but is 10.2 times more consistent and 3.8 times faster. Finally, this work presents a complete solution framework for those wishing to learn and implement cCNN in their synthetic biology work.

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Deep learning to improve bacterial cell counting: Implementation of classification-type convolutional neural networks (CNN)

Tamiev¹,

Furman²,

Reuel³

2020

Preprint

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Deep learning to improve bacterial cell counting: Implementation of classification-type convolutional neural networks (CNN)

Tamiev¹,

Furman²,

Reuel³

2020

Preprint

View full text Add to dashboard Cite

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Paige Furman

Automated classification of bacterial cell sub-populations with convolutional neural networks

Automated Classification of Bacterial Cell Sub-Populations with Convolutional Neural Networks

Deep learning to improve bacterial cell counting: Implementation of classification-type convolutional neural networks (CNN)

Deep learning to improve bacterial cell counting: Implementation of classification-type convolutional neural networks (CNN)

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