Sequential Establishment of Stripe Patterns in an Expanding Cell Population

Chenli Liu; Xiongfei Fu; Lizhong Liu; Xiaojing Ren; Carlos Kwan‐Long Chau; Sihong Li; Xiang Lu; Hualing Zeng; Guanhua Chen; Lei‐Han Tang; Peter Lenz; Xiaodong Cui; Wei Huang; Terence Hwa; Jian‐Dong Huang

doi:10.1126/science.1209042

Sequential Establishment of Stripe Patterns in an Expanding Cell Population

Chenli Liu(University of Hong Kong), Xiongfei Fu(University of Hong Kong), Lizhong Liu(University of Hong Kong), Xiaojing Ren(University of Hong Kong), Carlos Kwan‐Long Chau(University of Hong Kong), Sihong Li(University of Hong Kong), Xiang Lu(University of Hong Kong), Hualing Zeng(University of Hong Kong), Guanhua Chen(University of Hong Kong), Lei‐Han Tang(Hong Kong Baptist University), Peter Lenz(Loewe Center for Synthetic Microbiology), Xiaodong Cui(University of Hong Kong), Wei Huang(University of Hong Kong), Terence Hwa(Center for Theoretical Biological Physics), Jian‐Dong Huang(University of Hong Kong)

Science

October 13, 2011

10.1126/science.1209042

Cited by 473

Abstract

Periodic stripe patterns are ubiquitous in living organisms, yet the underlying developmental processes are complex and difficult to disentangle. We describe a synthetic genetic circuit that couples cell density and motility. This system enabled programmed Escherichia coli cells to form periodic stripes of high and low cell densities sequentially and autonomously. Theoretical and experimental analyses reveal that the spatial structure arises from a recurrent aggregation process at the front of the continuously expanding cell population. The number of stripes formed could be tuned by modulating the basal expression of a single gene. The results establish motility control as a simple route to establishing recurrent structures without requiring an extrinsic pacemaker.

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