1. Engineered red Opto-mGluR6 Opsins, a red-shifted optogenetic excitation tool, an in vitro study.
- Author
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Shamsnajafabadi, Hoda, Soheili, Zahra-Soheila, Sadeghi, Mehdi, Samiee, Shahram, Ghasemi, Pouria, Zibaii, Mohammad Ismail, Gholami Pourbadie, Hamid, Ahmadieh, Hamid, Ranaei Pirmardan, Ehsan, Salehi, Najmeh, Samiee, Dorsa, and Kashanian, Ali
- Subjects
OPTOGENETICS ,OPTICAL control ,GENE therapy ,GENETIC vectors ,LIGHT intensity - Abstract
Degenerative eye diseases cause partial or complete blindness due to photoreceptor degeneration. Optogenetic gene therapy is a revolutionary technique combining genetics and optical methods to control the function of neurons. Due to the inherent risk of photochemical damage, the light intensity necessary to activate Opto-mGluR6 surpasses the safe threshold for retinal illumination. Conversely, red-shifted lights pose a significantly lower risk of inducing such damage compared to blue lights. We designed red-shifted Opto-mGluR6 photopigments with a wide, red-shifted working spectrum compared to Opto-mGluR6 and examined their excitation capability in vitro. ROM19, ROM18 and ROM17, red-shifted variants of Opto-mGluR6, were designed by careful bioinformatics/computational studies. The predicted molecules with the best scores were selected, synthesised and cloned into the pAAV-CMV-IRES-EGFP vector. Expression of constructs was confirmed by functional assessment in engineered HEK-GIRK cells. Spectrophotometry and patch clamp experiments demonstrated that the candidate molecules were sensitive to the desired wavelengths of the light and directly coupled light stimuli to G-protein signalling. Herein, we introduce ROM17, ROM18 and ROM19 as newly generated, red-shifted variants with maximum excitation red-shifted of ~ 40nm, 70 nm and 126 nm compared to Opto-mGluR6. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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