Психосемиотика переживания пути: концепт дорога в многомерности субъективного мира человека

A subject of debate in recent years, the existential concept of “the way” continues to be a challenge for researchers in the fields of psycholinguistic studies and cultural linguistics. The results obtained from the experimental study discussed in this article contribute to the solution of the problem, shedding light on the spiritual meaning of the image of the “way” reflected in the consciousness of both train passengers and railway staff, in various situations along the journey.Desde el punto de vista psicosemiótico el artículo plantea el problema del concepto existencial del cronotopo del “camino”, intensamente debatido en la investigación moderna linguoculturológica y psicolingüística, en espera de su planteamiento en los estudios psicológicos. Se hace hincapié en el enfoque multidisciplinar al estudio psicológico de las actividades profesionales del conductor de ferrocarril

Combining high-resolution cryo-electron microscopy and mutagenesis to develop cowpea mosaic virus for bionanotechnology

Particles of cowpea mosaic virus (CPMV) have enjoyed considerable success as nanoparticles. The development of a system for producing empty virus-like particles (eVLPs) of the virus, which are non-infectious and have the potential to be loaded with heterologous material, has increased the number of possible applications for CPMV-based particles. However, for this potential to be realised, it was essential to demonstrate that eVLPs were accurate surrogates for natural virus particles, and this information was provided by high-resolution cryo-EM studies of eVLPs. This demonstration has enabled the approaches developed for the production of modified particles developed with natural CPMV particles to be applied to eVLPs. Furthermore, a combination of cryo-EM and mutagenic studies allowed the development of particles which are permeable but which could still assemble efficiently. These particles were shown to be loadable with cobalt, indicating that they can, indeed, be used as nano-containers

Crystal structure and proteomics analysis of empty virus-like particles of Cowpea mosaic virus

Empty virus-like particles (eVLPs) of Cowpea mosaic virus (CPMV) are currently being utilized as reagents in various biomedical and nanotechnology applications. Here, we report the crystal structure of CPMV eVLPs determined using X-ray crystallography at 2.3 Å resolution and compare it with previously reported cryo-electron microscopy (cryo-EM) of eVLPs and virion crystal structures. Although the X-ray and cryo-EM structures of eVLPs are mostly similar, there exist significant differences at the C-terminus of the small (S) subunit. The intact C-terminus of the S subunit plays a critical role in enabling the efficient assembly of CPMV virions and eVLPs, but undergoes proteolysis after particle formation. In addition, we report the results of mass spectrometry-based proteomics analysis of coat protein subunits from CPMV eVLPs and virions that identify the C-termini of S subunits undergo proteolytic cleavages at multiple sites instead of a single cleavage site as previously observed

Collection, pre-processing and on-the-fly analysis of data for high-resolution, single-particle cryo-electron microscopy

The dramatic growth in the use of cryo-electron microscopy (cryo-EM) to generate high-resolution structures of macromolecular complexes has changed the landscape of structural biology. The majority of structures deposited in the Electron Microscopy Data Bank (EMDB) at higher than 4-Å resolution were collected on Titan Krios microscopes. Although the pipeline for single-particle data collection is becoming routine, there is much variation in how sessions are set up. Furthermore, when collection is under way, there are a range of approaches for efficiently moving and pre-processing these data. Here, we present a standard operating procedure for single-particle data collection with Thermo Fisher Scientific EPU software, using the two most common direct electron detectors (the Thermo Fisher Scientific Falcon 3 (F3EC) and the Gatan K2), as well as a strategy for structuring these data to enable efficient pre-processing and on-the-fly monitoring of data collection. This protocol takes 3–6 h to set up a typical automated data collection session