Construction and phenotypic classification of synthetic dual-pole Escherichia coli cells
Journal
Communications Biology
Journal Volume
8
Journal Issue
1
Start Page
Article number: 1078
ISSN
2399-3642
Date Issued
2025-07-20
Author(s)
Chou, Tsung-Wei
Huang, Ing-Jen
Hsu, Ya-Chu
Wu, Szu-Hua
Hong, Jui-Chung
Ko, Yu-Hao
Su, Ting-Ran
Jiang, Jie-Hong Roland
Abstract
Macromolecular complexes anchored at one cell pole have previously been utilized to achieve synthetic asymmetric cell division in Escherichia coli. In nature, however, robust asymmetric cell division often relies on gradients established between two opposing poles. Here, we present a second-generation synthetic genetic circuit that enables two distinct scaffolding proteins to localize at opposite poles in E. coli. By engineering a PodJ fragment as the second scaffold and integrating SpmX, a negative regulator of PodJ condensation, as a direct chimera with PopZ, we effectively confined PopZ and PodJ to opposite poles within E. coli. Additionally, we developed a neural network-based classification method to identify these synthetic dual-pole cells, further advancing the synthetic biology toolkit for programmable cell differentiation.
SDGs
Publisher
Springer Science and Business Media LLC
Type
journal article