I03-Macromolecular Crystallography
Krios I-Titan Krios I at Diamond
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Wanwisa
Dejnirattisai
,
Daming
Zhou
,
Helen M.
Ginn
,
Helen M. E.
Duyvesteyn
,
Piyada
Supasa
,
James Brett
Case
,
Yuguang
Zhao
,
Thomas
Walter
,
Alexander J.
Mentzer
,
Chang
Liu
,
Beibei
Wang
,
Guido C.
Paesen
,
Jose
Slon-campos
,
César
López-camacho
,
Natasha M.
Kafai
,
Adam L.
Bailey
,
Rita E.
Chen
,
Baoling
Ying
,
Craig
Thompson
,
Jai
Bolton
,
Alex
Fyfe
,
Sunetra
Gupta
,
Tiong Kit
Tan
,
Javier
Gilbert-jaramillo
,
William
James
,
Michael
Knight
,
Miles W.
Carroll
,
Donal
Skelly
,
Christina
Dold
,
Yanchun
Peng
,
Robert
Levin
,
Tao
Dong
,
Andrew J.
Pollard
,
Julian C.
Knight
,
Paul
Klenerman
,
Nigel
Temperton
,
David R.
Hall
,
Mark A.
Williams
,
Neil G.
Paterson
,
Felicity
Bertram
,
C. Alistair
Siebert
,
Daniel K.
Clare
,
Andrew
Howe
,
Julika
Radecke
,
Yun
Song
,
Alain R.
Townsend
,
Kuan-ying A.
Huang
,
Elizabeth E.
Fry
,
Juthathip
Mongkolsapaya
,
Michael S.
Diamond
,
Jingshan
Ren
,
David I.
Stuart
,
Gavin R.
Screaton
Diamond Proposal Number(s):
[27009, 26983]
Open Access
Abstract: Antibodies are crucial to immune protection against SARS-CoV-2, with some in emergency use as therapeutics. Here we identify 377 human monoclonal antibodies (mAbs) recognizing the virus spike, and focus mainly on 80 that bind the receptor binding domain (RBD). We devise a competition data driven method to map RBD binding sites. We find that although antibody binding sites are widely dispersed, neutralizing antibody binding is focused, with nearly all highly inhibitory mAbs (IC50<0.1μg/ml) blocking receptor interaction, except for one that binds a unique epitope in the N-terminal domain. Many of these neutralizing mAbs use public V-genes and are close to germline. We dissect the structural basis of recognition for this large panel of antibodies through X-ray crystallography and cryo-electron microscopy of 19 Fab-antigen structures. We find novel binding modes for some potently inhibitory antibodies and demonstrate that strongly neutralizing mAbs protect, prophylactically or therapeutically, in animal models.
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Feb 2021
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E02-JEM ARM 300CF
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Liqi
Zhou
,
Jingdong
Song
,
Judy S.
Kim
,
Xudong
Pei
,
Chen
Huang
,
Mark
Boyce
,
Luiza
Mendonca
,
Daniel
Clare
,
Alistair
Siebert
,
Christopher
Allen
,
Emanuela
Liberti
,
David
Stuart
,
Xiaoqing
Pan
,
Peter
Nellist
,
Peijun
Zhang
,
Angus
Kirkland
,
Peng
Wang
Diamond Proposal Number(s):
[19243, 20431, 20961, 22317]
Open Access
Abstract: Cryo-electron microscopy is an essential tool for high-resolution structural studies of biological systems. This method relies on the use of phase contrast imaging at high defocus to improve information transfer at low spatial frequencies at the expense of higher spatial frequencies. Here we demonstrate that electron ptychography can recover the phase of the specimen with continuous information transfer across a wide range of the spatial frequency spectrum, with improved transfer at lower spatial frequencies, and as such is more efficient for phase recovery than conventional phase contrast imaging. We further show that the method can be used to study frozen-hydrated specimens of rotavirus double-layered particles and HIV-1 virus-like particles under low-dose conditions (5.7 e/Å2) and heterogeneous objects in an Adenovirus-infected cell over large fields of view (1.14 × 1.14 μm), thus making it suitable for studies of many biologically important structures.
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Jun 2020
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Krios I-Titan Krios I at Diamond
Krios II-Titan Krios II at Diamond
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Sebastian
Aston-deaville
,
Emil
Carlsson
,
Muhammad
Saleem
,
Angela
Thistlethwaite
,
Hannah
Chan
,
Sunil
Maharjan
,
Alessandra
Facchetti
,
Ian M.
Feavers
,
C. Alistair
Siebert
,
Richard F.
Collins
,
Alan
Roseman
,
Jeremy P.
Derrick
Diamond Proposal Number(s):
[16619]
Open Access
Abstract: Neisseria meningitidis is the causative agent of meningococcal meningitis and sepsis and remains a significant public health problem in many countries. Efforts to develop a comprehensive vaccine against serogroup B meningococci have focused on the use of surface-exposed outer membrane proteins. Here we report the use of virus-like particles derived from the core protein of Hepatitis B Virus, HBc, to incorporate antigen domains derived from Factor H binding protein (FHbp) and the adhesin NadA. The extracellular domain of NadA was inserted into the major immunodominant region of HBc, and the C-terminal domain of FHbp at the C-terminus (CFHbp), creating a single polypeptide chain 3.7-fold larger than native HBc. Remarkably, cryoelectron microscopy revealed that the construct formed assemblies that were able to incorporate both antigens with minimal structural changes to native HBc. Electron density was weak for NadA and absent for CFHbp, partly attributable to domain flexibility. Following immunization of mice, three HBc fusions (CFHbp or NadA alone, NadA + CFHbp) were able to induce production of IgG1, IgG2a and IgG2b antibodies reactive against their respective antigens at dilutions in excess of 1:18,000. However, only HBc fusions containing NadA elicited the production of antibodies with serum bactericidal activity. It is hypothesized that this improved immune response is attributable to the adoption of a more native-like folding of crucial conformational epitopes of NadA within the chimeric VLP. This work demonstrates that HBc can incorporate insertions of large antigen domains but that maintenance of their three-dimensional structure is likely to be critical in obtaining a protective response.
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Apr 2020
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Krios I-Titan Krios I at Diamond
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Diamond Proposal Number(s):
[16619]
Open Access
Abstract: Background: P-glycoprotein (ABCB1) is an ATP-binding cassette transporter that plays an important role in the clearance of drugs and xenobiotics and is associated with multi-drug resistance in cancer. Although several P-glycoprotein structures are available, these are either at low resolution, or represent mutated and/or quiescent states of the protein. Results: In the post-hydrolytic state the structure of the wild-type protein has been resolved at about 8 Å resolution. The cytosolic nucleotide-binding domains (NBDs) are separated but ADP remains bound, especially at the first NBD. Gaps in the transmembrane domains (TMDs) that connect to an inner hydrophilic cavity are filled by density emerging from the annular detergent micelle. The NBD-TMD linker is partly resolved, being located between the NBDs and close to the Signature regions involved in cooperative NBD dimerization. This, and the gap-filling detergent suggest steric impediment to NBD dimerization in the post-hydrolytic state. Two central regions of density lie in two predicted drug-binding sites, implying that the protein may adventitiously bind hydrophobic substances even in the post-hydrolytic state. The previously unresolved N-terminal extension was observed, and the data suggests these 30 residues interact with the headgroup region of the lipid bilayer. Conclusion: The structural data imply that (i) a low basal ATPase activity is ensured by steric blockers of NBD dimerization and (ii) allocrite access to the central cavity may be structurally linked to NBD dimerization, giving insights into the mechanism of drug-stimulation of P-glycoprotein activity.
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Dec 2018
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I03-Macromolecular Crystallography
I04-Macromolecular Crystallography
Krios I-Titan Krios I at Diamond
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Diamond Proposal Number(s):
[8997, 14509]
Open Access
Abstract: Type IV pili are responsible for a diverse range of functions, including twitching motility and cell adhesion. Assembly of the pilus fiber is driven by a cytoplasmic ATPase: it interacts with an inner membrane complex of biogenesis proteins which, in turn, bind to nascent pilin subunits and mediate fiber assembly. Here we report the structural characterization of the PilF TFP assembly ATPase from Thermus thermophilus. The crystal structure of a recombinant C-terminal fragment of PilF revealed bound, unhydrolysed ATP, although the full length complex was enzymatically active. 3D reconstructions were carried out by single particle cryoelectron microscopy for full length apoprotein PilF and in complex with AMPPNP. The structure forms an hourglass-like shape, with the ATPase domains in one half and the N1 domains in the second half which, we propose, interact with the other pilus biogenesis components. Molecular models for both forms were generated: binding of AMPPNP causes an upward shift of the N1 domains towards the ATPase domains of ~8 Å. We advocate a model in which ATP hydrolysis is linked to displacement of the N1 domains which is associated with lifting pilin subunits out of the inner membrane, and provide the activation energy needed to form the pilus fiber.
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Sep 2018
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Krios I-Titan Krios I at Diamond
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Diamond Proposal Number(s):
[13888]
Abstract: The light-harvesting 1-reaction centre (LH1-RC) complex is a key functional component of bacterial photosynthesis. Here we present a 2.9 Å resolution cryo-electron microscopy structure of the bacteriochlorophyll b-based LH1-RC complex from Blastochloris viridis that reveals the structural basis for absorption of infrared light and the molecular mechanism of quinone migration across the LH1 complex. The triple-ring LH1 complex comprises a circular array of 17 β-polypeptides sandwiched between 17 α- and 16 γ-polypeptides. Tight packing of the γ-apoproteins between β-polypeptides collectively interlocks and stabilizes the LH1 structure; this, together with the short Mg-Mg distances of bacteriochlorophyll b pairs, contributes to the large redshift of bacteriochlorophyll b absorption. The 'missing' 17th γ-polypeptide creates a pore in the LH1 ring, and an adjacent binding pocket provides a folding template for a quinone, Q P, which adopts a compact, export-ready conformation before passage through the pore and eventual diffusion to the cytochrome bc 1 complex.
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Apr 2018
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M01-Polara at OPIC (Oxford)
Krios I-Titan Krios I at Diamond
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Diamond Proposal Number(s):
[14856]
Open Access
Abstract: Membrane proteins remain challenging targets for structural biology, despite much effort, as their native environment is heterogeneous and complex. Most methods rely on detergents to extract membrane proteins from their native environment, but this removal can significantly alter the structure and function of these proteins. Here, we overcome these challenges with a hybrid method to study membrane proteins in their native membranes, combining high-resolution solid-state nuclear magnetic resonance spectroscopy and electron cryotomography using the same sample. Our method allows the structure and function of membrane proteins to be studied in their native environments, across different spatial and temporal resolutions, and the combination is more powerful than each technique individually. We use the method to demonstrate that the bacterial membrane protein YidC adopts a different conformation in native membranes and that substrate binding to YidC in these native membranes differs from purified and reconstituted systems.
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Jan 2018
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Bart
Alewijnse
,
Alun W.
Ashton
,
Melissa G.
Chambers
,
Songye
Chen
,
Anchi
Cheng
,
Mark
Ebrahim
,
Edward T.
Eng
,
Wim J. H.
Hagen
,
Abraham J.
Koster
,
Claudia S.
López
,
Natalya
Lukoyanova
,
Joaquin
Ortega
,
Ludovic
Renault
,
Steve
Reyntjens
,
William J.
Rice
,
Giovanna
Scapin
,
Raymond
Schrijver
,
Alistair
Siebert
,
Scott M.
Stagg
,
Valerie
Grum-tokars
,
Elizabeth R.
Wright
,
Shenping
Wu
,
Zhiheng
Yu
,
Z. Hong
Zhou
,
Bridget
Carragher
,
Clinton S.
Potter
Abstract: This paper provides an overview of the discussion and presentations from the Workshop on the Management of Large CryoEM Facilities held at the New York Structural Biology Center, New York, NY on February 6–7, 2017. A major objective of the workshop was to discuss best practices for managing cryoEM facilities. The discussions were largely focused on supporting single-particle methods for cryoEM and topics included: user access, assessing projects, workflow, sample handling, microscopy, data management and processing, and user training.
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Aug 2017
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Krios I-Titan Krios I at Diamond
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Daniel K.
Clare
,
C. Alistair
Siebert
,
Corey
Hecksel
,
Christoph
Hagen
,
Valerie
Mordhorst
,
Michael
Grange
,
Alun W.
Ashton
,
Martin A.
Walsh
,
Kay
Grunewald
,
Helen R.
Saibil
,
Dave I.
Stuart
,
Peijun
Zhang
Open Access
Abstract: The recent resolution revolution in cryo-EM has led to a massive increase in demand for both time on high-end cryo-electron microscopes and access to cryo-electron microscopy expertise. In anticipation of this demand, eBIC was set up at Diamond Light Source in collaboration with Birkbeck College London and the University of Oxford, and funded by the Wellcome Trust, the UK Medical Research Council (MRC) and the Biotechnology and Biological Sciences Research Council (BBSRC) to provide access to high-end equipment through peer review. eBIC is currently in its start-up phase and began by offering time on a single FEI Titan Krios microscope equipped with the latest generation of direct electron detectors from two manufacturers. Here, the current status and modes of access for potential users of eBIC are outlined. In the first year of operation, 222 d of microscope time were delivered to external research groups, with 95 visits in total, of which 53 were from unique groups. The data collected have generated multiple high- to intermediate-resolution structures (2.8–8 Å), ten of which have been published. A second Krios microscope is now in operation, with two more due to come online in 2017. In the next phase of growth of eBIC, in addition to more microscope time, new data-collection strategies and sample-preparation techniques will be made available to external user groups. Finally, all raw data are archived, and a metadata catalogue and automated pipelines for data analysis are being developed.
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Jun 2017
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Krios I-Titan Krios I at Diamond
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Diamond Proposal Number(s):
[14406]
Abstract: Wzz is an integral inner membrane protein involved in regulating the length of lipopolysaccharide O-antigen glycans and essential for the virulence of many Gram-negative pathogens. In all Wzz homologs, the large periplasmic domain is proposed to be anchored by two transmembrane helices, but no information is available for the transmembrane and cytosolic domains. Here we have studied purified oligomeric Wzz complexes using cryoelectron microscopy and resolved the transmembrane regions within a semi-continuous detergent micelle. The transmembrane helices of each monomer display a right-handed super-helical twist, and do not interact with the neighboring transmembrane domains. Modeling, flexible fitting and multiscale simulation approaches were used to study the full-length complex and to provide explanations for the influence of the lipid bilayer on its oligomeric status. Based on structural and in silico observations, we propose a new mechanism for O-antigen chain-length regulation that invokes synergy of Wzz and its polymerase partner, Wzy.
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Apr 2017
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