Guiling Yu scite author profile

With the increasingly dominant role of smartphones in our lives, mobile health care systems integrating advanced point-of-care technologies to manage chronic diseases are gaining attention. Using a multidisciplinary design principle coupling electrical engineering, software development, and synthetic biology, we have engineered a technological infrastructure enabling the smartphone-assisted semiautomatic treatment of diabetes in mice. A custom-designed home server SmartController was programmed to process wireless signals, enabling a smartphone to regulate hormone production by optically engineered cells implanted in diabetic mice via a far-red light (FRL)-responsive optogenetic interface. To develop this wireless controller network, we designed and implanted hydrogel capsules carrying both engineered cells and wirelessly powered FRL LEDs (light-emitting diodes). In vivo production of a short variant of human glucagon-like peptide 1 (shGLP-1) or mouse insulin by the engineered cells in the hydrogel could be remotely controlled by smartphone programs or a custom-engineered Bluetooth-active glucometer in a semiautomatic, glucose-dependent manner. By combining electronic device-generated digital signals with optogenetically engineered cells, this study provides a step toward translating cell-based therapies into the clinic.

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Synthetic far-red light-mediated CRISPR-dCas9 device for inducing functional neuronal differentiation

Shao

Wang

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

135

123

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SignificanceWe have developed an optogenetic far-red light (FRL)-activated CRISPR-dCas9 system (FACE) that is orthogonal, fine-tunable, reversible, and has robust endogenous gene-activation profiles upon stimulation with FRL, with deep tissue penetration capacity, low brightness, short illumination time, and negligible phototoxicity. The FACE device is biocompatible and meets the criteria for safe medical application in humans, providing a robust differentiation strategy for mass production of functional neural cells from induced pluripotent stem cells simply by utilizing a beam of FRL. This optogenetic device has expanded the optogenetic toolkit for precise mammalian genome engineering in many areas of basic and translational research that require precise spatiotemporal control of cellular behavior, which may in turn boost the clinical progress of optogenetics-based precision therapy.

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Precautions Are Needed for COVID-19 Patients with Coinfection of Common Respiratory Pathogens

Xing

et al. 2020

SSRN Journal

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A small and highly sensitive red/far-red optogenetic switch for applications in mammals

et al. 2021

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Guiling Yu

Smartphone-controlled optogenetically engineered cells enable semiautomatic glucose homeostasis in diabetic mice

Synthetic far-red light-mediated CRISPR-dCas9 device for inducing functional neuronal differentiation

Precautions Are Needed for COVID-19 Patients with Coinfection of Common Respiratory Pathogens

A small and highly sensitive red/far-red optogenetic switch for applications in mammals

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