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Virtually, everything is possible. However, very few techniques can be applied in practice. CryoEM is a unique method for the structure determination of biological macromolecules at atomic resolution, and the development of this technique has made cryoEM more accessible than ever before. However, its demands for time, money and training are considerable. To prepare trainees for using real cryoEM equipment, it is necessary to develop a training system that minimizes the time and cost needed for training. To this end, we developed CryoVR, a VR training system for cryoEM using a commercially available HMD (HTC Vive Pro). The user is provided with a virtual room, where he or she can interact with the cryoEM sample. The VR system can be used to simulate cryoEM sample preparation and data acquisition procedures, which are commonly performed using the real cryoEM devices. The user can also experience a real cryoEM data recording using the HMD, which is useful for training in near-native states.
Our VR training system, CryoVR, consists of a software program and a VR HMD. The software program provides the user with a virtual environment for cryoEM training, where the user can interact with the virtual samples. For sample preparation, the user is provided with a set of tools and materials for sample introduction, including a pipette, a cryo-lift, a cryo-grid, a vitrified copper grid, a set of cryoEM grids and a cryo-tube. Other tools include a grid holder, cryo-grid, tip, loops, a grid knife, a cryo-pipette, a cryo-motor, a 3D-printed cryo-stir bar, a micro-pipette, a syringe, a cryo-tube, a cryo-grids and a compact-disk drive (CD-ROM). The virtual tools are represented as digital 3D models and can be interacted with by using a motion controller (for the pipette and syringe) or an HTC Vive-style controller (e.g. the grid holder, grid knife, grid, tip, loops, 3D-printed stir bar, CD-ROM and a cryo-tube).
To address the need of training cryoEM operators, a VR augmented system, CryoVR, was developed to simulate a real cryoEM apparatus, allowing trainees to practice and prepare before interacting with the expensive real-world cryoEM equipment (Gonzalez et al., 2019). With a combination of in-depth theory and hands-on training, CryoVR offers trainees a comprehensive 'learn by doing' experience through multiple training modules and earning certificates after passing the built-in Exam mode. The unique design of CryoVR allows the trainees to walk through the entire process of the experimental procedures in a virtual environment, which is more realistic and enjoyable than traditional training through the printing textbooks or videos. CryoVR also includes a step-by-step tutorial with vivid visual, audio and text guidance, which can help users become familiar with hands-on experimental procedures through a series of learning modules and earn certificates after passing the built-in Exam mode. 827ec27edc