Light-controllable Transcription System by Nucleocytoplasmic Shuttling of a Truncated Phytochrome B.
Abstract:
Transcriptional regulation is a useful strategy for gene therapy and for biomedical research. Unlike chemically regulated transcriptional approaches, spatiotemporal control of transcription using optogenetic tools is a powerful technology for the analysis of single cells. For light to penetrate into tissues, it is desired to use photoreceptors absorbing red/far-red light with a low-molecular mass applicable for the use of virus vectors, and a photoswitch using the photoreceptor need to be constructed as a single expression vector. Herein, we describe an optogenetic tool based on Arabidopsis thaliana phytochrome (Phy) B and its binding partner, phytochrome-interacting factor (PIF) 6. We generated a truncated PhyB, which allowed for reversible association with PIF6 by red/far-red light illumination. The red light illumination only for 5 min induced PhyB translocation from cytoplasm into the nucleus by the association with PIF6, resulting in transcriptional activation based on Gal4 DNA-binding domain and the upstream activating sequence of Gal system. The nucleocytoplasmic shuttling vector using PhyB and PIF6 might be applicable for transcriptional regulation in tissue experiments. This article is protected by copyright. All rights reserved.
