Versatile applications of Light-Oxygen-Voltage (LOV) domain proteins in optical microscopy.
Abstract:
Various blue-light photoreceptor proteins have photo-responsive domains known as light, oxygen, voltage (LOV) domains, which are extensively distributed in plants, algae, fungi, and bacteria. When exposed to blue light, the flavin chromophore and a highly conserved cysteine residue form a covalent adduct on a microsecond time scale. LOV domains are common photosensory modules that can be applied to optogenetics, regulated synthesis of reactive oxygen species, and fluorescence microscopy. This review explores the photocycle kinetics and applications of various LOV domains, which have been explored for confocal microscopy, two-photon microscopy, and super-resolution microscopy. Many LOV domains have been derived and modulated for use in different types of microscopic applications. Molecular understanding, diversity of LOV domains, and versatile photo-physical characteristics of these proteins have immense potential for the development of useful probes for various microscopy tools. There is a great demand for perspective research on LOV domain proteins for harnessing their possible optobiotechnological applications.
