Your search keyword '"Yu, Guiling"' showing total 3 results

1. Constructing Smartphone-Controlled Optogenetic Switches in Mammalian Cells.

Author

Yu Y, Yu G, and Ye H

Subjects

Animals, Bacterial Proteins metabolism, HEK293 Cells, Humans, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Transfection, Transgenes, Bacterial Proteins genetics, Cell Engineering instrumentation, Gene Expression Regulation radiation effects, Light, Optogenetics instrumentation, Smartphone, Synthetic Biology instrumentation, Wireless Technology instrumentation

Abstract

With the increasing indispensable role of smartphones in our daily lives, the mobile health care system coupled with embedded physical sensors and modern communication technologies make it an attractive technology for enabling the remote monitoring of an individual's health. Using a multidisciplinary design principle coupled with smart electronics, software, and optogenetics, the investigators constructed smartphone-controlled optogenetic switches to enable the ultraremote-control transgene expression. A custom-designed SmartController system was programmed to process wireless signals from smartphones, enabling the regulation of therapeutic outputs production by optically engineered cells via a far-red light (FRL)-responsive optogenetic interface. In the present study, the investigators describe the details of the protocols for constructing smartphone-controlled optogenetic switches, including the rational design of an FRL-triggered transgene expression circuit, the procedure for cell culture and transfection, the implementation of the smartphone-controlled far-red light-emitting diode (LED) module, and the reporter detection assay.

Published

2021

2. Exploring plant-derived phytochrome chaperone proteins for light-switchable transcriptional regulation in mammals.

Author

Kong, Deqiang, Zhou, Yang, Wei, Yu, Wang, Xinyi, Huang, Qin, Gao, Xianyun, Wan, Hang, Liu, Mengyao, Kang, Liping, Yu, Guiling, Yin, Jianli, Guan, Ningzi, and Ye, Haifeng

Subjects

GENETIC transcription regulation, PHYTOCHROMES, GENE expression, TRANSCRIPTION factors, GENETIC transcription, SYNTHETIC biology

Abstract

Synthetic biology applications require finely tuned gene expression, often mediated by synthetic transcription factors (sTFs) compatible with the human genome and transcriptional regulation mechanisms. While various DNA-binding and activation domains have been developed for different applications, advanced artificially controllable sTFs with improved regulatory capabilities are required for increasingly sophisticated applications. Here, in mammalian cells and mice, we validate the transactivator function and homo-/heterodimerization activity of the plant-derived phytochrome chaperone proteins, FHY1 and FHL. Our results demonstrate that FHY1/FHL form a photosensing transcriptional regulation complex (PTRC) through interaction with the phytochrome, ΔPhyA, that can toggle between active and inactive states through exposure to red or far-red light, respectively. Exploiting this capability, we develop a light-switchable platform that allows for orthogonal, modular, and tunable control of gene transcription, and incorporate it into a PTRC-controlled CRISPRa system (PTRCdcas) to modulate endogenous gene expression. We then integrate the PTRC with small molecule- or blue light-inducible regulatory modules to construct a variety of highly tunable systems that allow rapid and reversible control of transcriptional regulation in vitro and in vivo. Validation and deployment of these plant-derived phytochrome chaperone proteins in a PTRC platform have produced a versatile, powerful tool for advanced research and biomedical engineering applications. Synthetic biology applications require finely tuned gene expression, often mediated by synthetic transcription factors. Here the authors validate two plant-derived proteins, FHY1 and FHL, acting as transactivators in mammalian cells for orthogonal, modular, and tunable control of gene transcription by forming a photosensing transcriptional regulation complex with PhyA. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

Shao, Jiawei, Wang, Meiyan, Yu, Guiling, Zhu, Sucheng, Yu, Yuanhuan, Heng, Boon Chin, Wu, Jiali, and Ye, Haifeng

Published

2018