Here, we describe the third major release of RELION. CPU-based vector acceleration has been added in addition to GPU support, which provides flexibility in use of resources and avoids memory limitations. Reference-free autopicking with Laplacian-of-Gaussian filtering and execution of jobs from python allows non-interactive processing during acquisition, including 2D-classification, de novo model generation and 3D-classification. Per-particle refinement of CTF parameters and correction of estimated beam tilt provides higher resolution reconstructions when particles are at different heights in the ice, and/or coma-free alignment has not been optimal. Ewald sphere curvature correction improves resolution for large particles. We illustrate these developments with publicly available data sets: together with a Bayesian approach to beam-induced motion correction it leads to resolution improvements of 0.2–0.7 Å compared to previous RELION versions.
April 2020 Nsp3 abcam ab181620 Nucleocapsid Sino Biological 40143-MM05 Validation Commercial antibodies validated as per manufacturers website: Beta actin Sigma A5441 Immunoblot on chicken fibroblast cell extracts Spike Abcam Ab252690 Validated by ELISA on free peptide from SARS-CoV-1 Nsp3 abcam ab181620 Validated by western blot on SARS-CoV-1 infected cells Nucleocapsid Sino Biological 40143-MM05 Validated by western blot with corresponding viruses Eukaryotic cell lines Policy information about cell lines Cell line source(s) VeroE6 cells were obtained from ATCC, Calu-3 cells were obtained from Manfred Frey, originally from ATCC. Authentication Cells were not further authenticated Mycoplasma contamination Cells have been tested and are free of mycoplasma.
Here, we describe the third major release of relion. CPU-based vector acceleration has been added in addition to GPU support, which provides flexibility in use of resources and avoids memory limitations. Referencefree autopicking with Laplacian-of-Gaussian filtering and execution of jobs from python allows non-interactive processing during acquisition, including 2D-classification, de novo model generation and 3D-classification. Perparticle refinement of CTF parameters and correction of estimated beam tilt provides higher-resolution reconstructions when particles are at different heights in the ice, and/or coma-free alignment has not been optimal. Ewald sphere curvature correction improves resolution for large particles. We illustrate these developments with publicly available data sets: together with a Bayesian approach to beam-induced motion correction it leads to resolution improvements of 0.2-0.7Å compared to previous relion versions.
Methods are presented that detect three types of aberrations in single-particle cryo-EM data sets: symmetrical and antisymmetrical optical aberrations and magnification anisotropy. Because these methods only depend on the availability of a preliminary 3D reconstruction from the data, they can be used to correct for these aberrations for any given cryo-EM data set, a posteriori. Using five publicly available data sets, it is shown that considering these aberrations improves the resolution of the 3D reconstruction when these effects are present. The methods are implemented in version 3.1 of the open-source software package RELION. research papers IUCrJ (2020). 7, 253-267 Jasenko Zivanov et al. High-order aberrations and anisotropic magnification 255
A Bayesian approach to estimate the trajectories of particle motion in electron cryo-microscopy single-particle analysis is presented.
Summary Type-A γ-aminobutyric receptors (GABA A Rs) are ligand-gated chloride channels with a very rich pharmacology. Some of their modulators, including benzodiazepines and general anaesthetics, are among the most successful drugs in clinical use and common substances of abuse. Without reliable structural data, the mechanistic basis for pharmacological modulation of GABA A Rs remains largely unknown. Here we report high-resolution cryoEM structures of the full-length human α1β3γ2L GABA A R in lipid nanodiscs, bound to the channel blocker picrotoxin, the competitive antagonist bicuculline, the agonist GABA and the classical benzodiazepines alprazolam (Xanax) and diazepam (Valium), respectively. We describe the binding modes and mechanistic impacts of these ligands, the closed and desensitised states of the GABA A R gating cycle, and the basis for allosteric coupling between the extracellular, agonist-binding, and the transmembrane, pore-forming, regions. This work provides a structural framework to integrate decades of physiology and pharmacology research and a rational basis for development of novel GABA A R modulators.
Type A γ-aminobutyric acid receptors (GABA A Rs) are pentameric ligand-gated ion channels (pLGICs) and the main drivers of fast inhibitory neurotransmission in the vertebrate nervous system 1 , 2 . Their dysfunction is implicated in a range of neurological disorders, including depression, epilepsy and schizophrenia 3 , 4 . Amongst the numerous assemblies theoretically possible, α1β2/3γ2 GABA A Rs are most prevalent in the brain 5 . The β3 subunit plays an important role in maintaining inhibitory tone and expression of this subunit alone is sufficient to rescue inhibitory synaptic transmission in a CRISPR/Cas9 derived β1-3 triple knockout 6 . To date, efforts to generate accurate structural models for heteromeric GABA A Rs have been hampered by the use of engineered receptors and the presence of detergents 7 – 9 . Significantly, some recent cryo-EM reconstructions report “collapsed” conformations 8 , 9 which disagree with the prototypical pLGIC, the Torpedo nicotinic acetylcholine receptor 10 , 11 , the large body of structural work on homologous homopentameric receptor variants 12 , and the logic of a ion channel architecture. To address this problem, here we present a high-resolution cryo-EM structure of the full-length human α1β3γ2L, a major synaptic GABA A R isoform, functionally reconstituted in lipid nanodiscs. The receptor is bound to a positive allosteric modulator megabody and in a desensitised conformation. Unexpectedly, each GABA A R pentamer harbours two phosphatidylinositol 4,5-bisphosphate (PIP2) molecules, whose head groups occupy positively-charged pockets in the intracellular juxtamembrane regions of α1-subunits. Beyond this level, the intracellular M3-M4 loops are largely disordered, possibly because interacting post-synaptic proteins were not included. This structure illustrates the molecular principles of heteromeric GABA A receptor organization and provides a reference framework for future mechanistic investigations of GABA-ergic signalling and pharmacology.
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