Studying Cargo Transport Using RudLOV.
Abstract:
Most membrane and secreted proteins are transported from the endoplasmic reticulum (ER) to the Golgi apparatus and subsequently directed to their final destinations in the cell. However, the mechanisms underlying transport and cargo sorting remain unclear. Recent advancements in optical microscopy, combined with synchronized cargo protein release methods, have enabled the direct observation of cargo protein transport. We developed a new optically synchronized cargo release method called retention using the dark state of LOV2 (RudLOV). This innovative technique offers three exceptional control capabilities: spatial, temporal, and quantitative control of cargo release. RudLOV uses illumination to trigger transport and detect cargo. Consequently, the selection of an appropriate laser and filter set for controlling the illumination and/or detection is crucial. The protocol presented here provides step-by-step guidelines for obtaining high-resolution live imaging data using RudLOV, thereby enabling researchers to investigate intracellular cargo transport with unprecedented precision and control. Key features • RudLOV is a new optically synchronized intracellular cargo transport method. • RudLOV enables precise spatial, temporal, and quantitative control of cargo release. • RudLOV allows cargo to be released using a 445 or 488 nm laser with less damage than UV. • RudLOV allows you to hook and release cargo without the use of exogenous chemicals.
