Litcius/Paper detail

Optogenetic regulation of endogenous proteins

Taras Redchuk, Maksim M. Karasev, Polina V. Verkhusha, Sara K. Donnelly, Maren Hülsemann, Jori Virtanen, Henna M. Moore, Maria K. Vartiainen, Louis Hodgson, Vladislav V. Verkhusha

2020Nature Communications60 citationsDOIOpen Access PDF

Abstract

Techniques of protein regulation, such as conditional gene expression, RNA interference, knock-in and knock-out, lack sufficient spatiotemporal accuracy, while optogenetic tools suffer from non-physiological response due to overexpression artifacts. Here we present a near-infrared light-activatable optogenetic system, which combines the specificity and orthogonality of intrabodies with the spatiotemporal precision of optogenetics. We engineer optically-controlled intrabodies to regulate genomically expressed protein targets and validate the possibility to further multiplex protein regulation via dual-wavelength optogenetic control. We apply this system to regulate cytoskeletal and enzymatic functions of two non-tagged endogenous proteins, actin and RAS GTPase, involved in complex functional networks sensitive to perturbations. The optogenetically-enhanced intrabodies allow fast and reversible regulation of both proteins, as well as simultaneous monitoring of RAS signaling with visible-light biosensors, enabling all-optical approach. Growing number of intrabodies should make their incorporation into optogenetic tools the versatile technology to regulate endogenous targets.

Topics & Concepts

OptogeneticsEndogenyBiologyCell biologyCRISPRNeuroscienceGeneGeneticsBiochemistryTransgenic Plants and ApplicationsCRISPR and Genetic EngineeringAdvanced Fluorescence Microscopy Techniques