Optogenetic control of RNA function and metabolism using engineered light-switchable RNA-binding proteins.

Renmei Liu,Zeyi Zhang,Chenxia Zhang,Yuzheng Zhao,Shu Quan,Xianjun Chen,Ni Su,Linyong Zhu,Zhuo Zhang,Zhou Zhao,Haibo Cai,Yi Yang,Wei He,Jing Yao,Jing Yang

doi:10.1038/s41587-021-01112-1

Optogenetic control of RNA function and metabolism using engineered light-switchable RNA-binding proteins.

Renmei Liu, Zeyi Zhang + Show 13 more

https://doi.org/10.1038/s41587-021-01112-1

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Journal: Nature Biotechnology	Publication Date: Jan 3, 2022
Citations: 51

Affiliation: East China University of Science and Technology, Center for Excellence in Brain Science and Intelligence Technology, Chinese Academy of Sciences

#RNA-binding Proteins #RNA Effectors #Cellular Context #Control Of Splicing #Regulation Of Labeling #Activity In Space #Transcription Locus #Control Of Translation #Control Of Stability #Cell Culture

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RNA-binding proteins (RBPs) play an essential role in regulating the function of RNAs in a cellular context, but our ability to control RBP activity in time and space is limited. Here, we describe the engineering of LicV, a photoswitchable RBP that binds to a specific RNA sequence in response to blue light irradiation. When fused to various RNA effectors, LicV allows for optogenetic control of RNA localization, splicing, translation and stability in cell culture. Furthermore, LicV-assisted CRISPR-Cas systems allow for efficient and tunable photoswitchable regulation of transcription and genomic locus labeling. These data demonstrate that the photoswitchable RBP LicV can serve as a programmable scaffold for the spatiotemporal control of synthetic RNA effectors.

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Optogenetic control of RNA function and metabolism using engineered light-switchable RNA-binding proteins.