Lianyue Li scite author profile

Recombinant bacterial colonization plays an indispensable role in disease prevention, alleviation, and treatment. Successful application mainly depends on whether bacteria can efficiently spatiotemporally colonize the host gut. However, a primary limitation of existing methods is the lack of precise spatiotemporal regulation, resulting in uncontrolled methods that are less effective. Herein, we design upconversion microgels (UCMs) to convert near-infrared light (NIR) into blue light to activate recombinant light-responsive bacteria (Lresb) in vivo, where autocrine ''functional cellular glues'' made of adhesive proteins assist Lresb inefficiently colonizing the gut. The programmable engineering platform is further developed for the controlled and effective colonization of Escherichia coli Nissle 1917 (EcN) in the gut. The colonizing bacteria effectively alleviate DSS-induced colitis in mice. We anticipate that this approach could facilitate the clinical application of engineered microbial therapeutics to accurately and effectively regulate host health.

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A Novel Transition From Substrate Integrated Suspended Line to Conductor Backed CPW

Yan

et al. 2016

IEEE Microw. Wireless Compon. Lett.

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A novel transition from substrate integrated suspended line (SISL) to conductor backed coplanar waveguide (CBCPW) is proposed in this letter. The proposed transition utilizing the standard PCB techniques eliminates the drawbacks of the traditional suspended circuits and integrates the suspended circuits effectively. The new transition is a self-packaged system verified by both simulation and experiment results. Back-to-back transition structure has insertion loss of less than 0.6 dB and return loss of better than 15 dB from dc to 8 GHz.Index Terms-Conductor backed coplanar waveguide (CBCPW), printed circuit board (PCB), substrate integrated suspended line (SISL), transition.

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Light-Sensitive Lactococcus lactis for Microbe–Gut–Brain Axis Regulating via Upconversion Optogenetic Micro-Nano System

et al. 2022

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The discovery of the gut–brain axis has proven that brain functions can be affected by the gut microbiota’s metabolites, so there are significant opportunities to explore new tools to regulate gut microbiota and thus work on the brain functions. Meanwhile, engineered bacteria as oral live biotherapeutic agents to regulate the host’s healthy homeostasis have attracted much attention in microbial therapy. However, whether this strategy is able to remotely regulate the host’s brain function in vivo has not been investigated. Here, we engineered three blue-light-responsive probiotics as oral live biotherapeutic agents. They are spatiotemporally delivered and controlled by the upconversion optogenetic micro–nano system. This micro–nano system promotes the small intestine targeting and production of the exogenous L. lactis in the intestines, which realizes precise manipulation of brain functions including anxiety behavior, Parkinson’s disease, and vagal afferent. The noninvasive and real-time probiotic intervention strategy makes the communiation from the gut to the host more controllable, which will enable the potential for engineered microbes accurately and effectively regulating a host’s health.

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Engineered NIR light-responsive bacteria as anti-tumor agent for targeted and precise cancer therapy

Pan

Pang

et al. 2021

Chemical Engineering Journal

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Modeling of New Spiral Inductor Based on Substrate Integrated Suspended Line Technology

Mou

2017

IEEE Trans. Microwave Theory Techn.

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Lianyue Li

NIR light-responsive bacteria with live bio-glue coatings for precise colonization in the gut

A Novel Transition From Substrate Integrated Suspended Line to Conductor Backed CPW

Light-Sensitive Lactococcus lactis for Microbe–Gut–Brain Axis Regulating via Upconversion Optogenetic Micro-Nano System

Engineered NIR light-responsive bacteria as anti-tumor agent for targeted and precise cancer therapy

Modeling of New Spiral Inductor Based on Substrate Integrated Suspended Line Technology

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