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1. Overcoming resolution attenuation during tilted cryo-EM data collection

Author

Aiyer, Sriram, Baldwin, Philip R., Tan, Shi Min, Shan, Zelin, Oh, Juntaek, Mehrani, Atousa, Bowman, Marianne E., Louie, Gordon, Passos, Dario Oliveira, Đorđević-Marquardt, Selena, Mietzsch, Mario, Hull, Joshua A., Hoshika, Shuichi, Barad, Benjamin A., Grotjahn, Danielle A., McKenna, Robert, Agbandje-McKenna, Mavis, Benner, Steven A., Noel, Joseph A. P., Wang, Dong, Tan, Yong Zi, and Lyumkis, Dmitry

Published
2024
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5. Symmetric activation and modulation of the human calcium-sensing receptor

Author

Park, Jinseo, Zuo, Hao, Frangaj, Aurel, Fu, Ziao, Yen, Laura Y., Zhang, Zhening, Mosyak, Lidia, Slavkovich, Vesna N., Liu, Jonathan, Ray, Kimberly M., Cao, Baohua, Vallese, Francesca, Geng, Yong, Chen, Shaoxia, Grassucci, Robert, Dandey, Venkata P., Tan, Yong Zi, Eng, Edward, Lee, Yeji, Kloss, Brian, Liu, Zheng, Hendrickson, Wayne A., Potter, Clinton S., Carragher, Bridget, Graziano, Joseph, Conigrave, Arthur D., Frank, Joachim, Clarke, Oliver B., and Fan, Qing R.

Published
2021

6. Multivalency transforms SARS-CoV-2 antibodies into ultrapotent neutralizers

Author

Rujas, Edurne, Kucharska, Iga, Tan, Yong Zi, Benlekbir, Samir, Cui, Hong, Zhao, Tiantian, Wasney, Gregory A., Budylowski, Patrick, Guvenc, Furkan, Newton, Jocelyn C., Sicard, Taylor, Semesi, Anthony, Muthuraman, Krithika, Nouanesengsy, Amy, Aschner, Clare Burn, Prieto, Katherine, Bueler, Stephanie A., Youssef, Sawsan, Liao-Chan, Sindy, Glanville, Jacob, Christie-Holmes, Natasha, Mubareka, Samira, Gray-Owen, Scott D., Rubinstein, John L., Treanor, Bebhinn, and Julien, Jean-Philippe

Published
2021
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7. FACT caught in the act of manipulating the nucleosome

Author

Liu, Yang, Zhou, Keda, Zhang, Naifu, Wei, Hui, Tan, Yong Zi, Zhang, Zhening, and Carragher, Bridget

Subjects
Histones -- Observations, Nucleosomes -- Control, Molecular chaperones -- Influence, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The organization of genomic DNA into nucleosomes profoundly affects all DNA-related processes in eukaryotes. The histone chaperone known as 'facilitates chromatin transcription' (FACT.sup.1) (consisting of subunits SPT16 and SSRP1) promotes both disassembly and reassembly of nucleosomes during gene transcription, DNA replication and DNA repair.sup.2. However, the mechanism by which FACT causes these opposing outcomes is unknown. Here we report two cryo-electron-microscopic structures of human FACT in complex with partially assembled subnucleosomes, with supporting biochemical and hydrogen-deuterium exchange data. We find that FACT is engaged in extensive interactions with nucleosomal DNA and all histone variants. The large DNA-binding surface on FACT appears to be protected by the carboxy-terminal domains of both of its subunits, and this inhibition is released by interaction with H2A-H2B, allowing FACT-H2A-H2B to dock onto a complex containing DNA and histones H3 and H4 (ref. .sup.3). SPT16 binds nucleosomal DNA and tethers H2A-H2B through its carboxy-terminal domain by acting as a placeholder for DNA. SSRP1 also contributes to DNA binding, and can assume two conformations, depending on whether a second H2A-H2B dimer is present. Our data suggest a compelling mechanism for how FACT maintains chromatin integrity during polymerase passage, by facilitating removal of the H2A-H2B dimer, stabilizing intermediate subnucleosomal states and promoting nucleosome reassembly. Our findings reconcile discrepancies regarding the many roles of FACT and underscore the dynamic interactions between histone chaperones and nucleosomes. Two cryo-electron-microscopy images of the histone chaperone FACT interacting with components of nucleosomes shed light on how FACT manipulates nucleosomes to promote transcription, DNA repair and DNA replication., Author(s): Yang Liu [sup.1] , Keda Zhou [sup.1] , Naifu Zhang [sup.2] , Hui Wei [sup.3] , Yong Zi Tan [sup.3] [sup.4] [sup.7] , Zhening Zhang [sup.3] [sup.5] [sup.8] , [...]

Published
2020
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8. Structure and drug resistance of the Plasmodium falciparum transporter PfCRT

Author

Kim, Jonathan, Tan, Yong Zi, Wicht, Kathryn J., Erramilli, Satchal K., Dhingra, Satish K., Okombo, John, and Vendome, Jeremie

Subjects
Drug resistance in microorganisms -- Analysis, Carrier proteins -- Structure, Malaria -- Drug therapy, Chloroquine -- Dosage and administration -- Patient outcomes, Plasmodium falciparum -- Structure -- Genetic aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The emergence and spread of drug-resistant Plasmodium falciparum impedes global efforts to control and eliminate malaria. For decades, treatment of malaria has relied on chloroquine (CQ), a safe and affordable 4-aminoquinoline that was highly effective against intra-erythrocytic asexual blood-stage parasites, until resistance arose in Southeast Asia and South America and spread worldwide.sup.1. Clinical resistance to the chemically related current first-line combination drug piperaquine (PPQ) has now emerged regionally, reducing its efficacy.sup.2. Resistance to CQ and PPQ has been associated with distinct sets of point mutations in the P. falciparum CQ-resistance transporter PfCRT, a 49-kDa member of the drug/metabolite transporter superfamily that traverses the membrane of the acidic digestive vacuole of the parasite.sup.3-9. Here we present the structure, at 3.2 Å resolution, of the PfCRT isoform of CQ-resistant, PPQ-sensitive South American 7G8 parasites, using single-particle cryo-electron microscopy and antigen-binding fragment technology. Mutations that contribute to CQ and PPQ resistance localize primarily to moderately conserved sites on distinct helices that line a central negatively charged cavity, indicating that this cavity is the principal site of interaction with the positively charged CQ and PPQ. Binding and transport studies reveal that the 7G8 isoform binds both drugs with comparable affinities, and that these drugs are mutually competitive. The 7G8 isoform transports CQ in a membrane potential- and pH-dependent manner, consistent with an active efflux mechanism that drives CQ resistance.sup.5, but does not transport PPQ. Functional studies on the newly emerging PfCRT F145I and C350R mutations, associated with decreased PPQ susceptibility in Asia and South America, respectively.sup.6,9, reveal their ability to mediate PPQ transport in 7G8 variant proteins and to confer resistance in gene-edited parasites. Structural, functional and in silico analyses suggest that distinct mechanistic features mediate the resistance to CQ and PPQ in PfCRT variants. These data provide atomic-level insights into the molecular mechanism of this key mediator of antimalarial treatment failures. Structural, functional and in silico analyses of the chloroquine-resistance transporter PfCRT of Plasmodium falciparum suggest that distinct mechanistic features mediate the resistance to chloroquine and piperaquine in drug-resistant parasites., Author(s): Jonathan Kim [sup.1] , Yong Zi Tan [sup.1] [sup.2] , Kathryn J. Wicht [sup.3] , Satchal K. Erramilli [sup.4] , Satish K. Dhingra [sup.3] , John Okombo [sup.3] , [...]

Published
2019
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9. Structure of an endosomal signaling GPCR–G protein–β-arrestin megacomplex

Author

Nguyen, Anthony H., Thomsen, Alex R. B., Cahill, III, Thomas J., Huang, Rick, Huang, Li-Yin, Marcink, Tara, Clarke, Oliver B., Heissel, Søren, Masoudi, Ali, Ben-Hail, Danya, Samaan, Fadi, Dandey, Venkata P., Tan, Yong Zi, Hong, Chuan, Mahoney, Jacob P., Triest, Sarah, Little, IV, John, Chen, Xin, Sunahara, Roger, Steyaert, Jan, Molina, Henrik, Yu, Zhiheng, des Georges, Amedee, and Lefkowitz, Robert J.

Published
2019
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15. Through‐grid wicking enables high‐speed cryoEM specimen preparation.

Author

Tan, Yong Zi and Rubinstein, John L.

Subjects
*AIR-water interfaces, *VITRIFICATION
Abstract

Blotting times for conventional cryoEM specimen preparation complicate time‐resolved studies and lead to some specimens adopting preferred orientations or denaturing at the air–water interface. Here, it is shown that solution sprayed onto one side of a holey cryoEM grid can be wicked through the grid by a glass‐fiber filter held against the opposite side, often called the 'back', of the grid, producing a film suitable for vitrification. This process can be completed in tens of milliseconds. Ultrasonic specimen application and through‐grid wicking were combined in a high‐speed specimen‐preparation device that was named 'Back‐it‐up' or BIU. The high liquid‐absorption capacity of the glass fiber compared with self‐wicking grids makes the method relatively insensitive to the amount of sample applied. Consequently, through‐grid wicking produces large areas of ice that are suitable for cryoEM for both soluble and detergent‐solubilized protein complexes. The speed of the device increases the number of views for a specimen that suffers from preferred orientations. [ABSTRACT FROM AUTHOR]

Published
2020
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18. Big data in cryoEM: automated collection, processing and accessibility of EM data.

Author

Baldwin, Philip R, Tan, Yong Zi, Eng, Edward T, Rice, William J, Noble, Alex J, Negro, Carl J, Cianfrocco, Michael A, Potter, Clinton S, and Carragher, Bridget

Subjects
*BIG data, *ELECTRON microscopy, *MOLECULAR structure, *DEVELOPMENTAL biology, *TOMOGRAPHY, *MOLECULAR biology
Abstract

The scope and complexity of cryogenic electron microscopy (cryoEM) data has greatly increased, and will continue to do so, due to recent and ongoing technical breakthroughs that have led to much improved resolutions for macromolecular structures solved using this method. This big data explosion includes single particle data as well as tomographic tilt series, both generally acquired as direct detector movies of ∼10–100 frames per image or per tilt-series. We provide a brief survey of the developments leading to the current status, and describe existing cryoEM pipelines, with an emphasis on the scope of data acquisition, methods for automation, and use of cloud storage and computing. [ABSTRACT FROM AUTHOR]

Published
2018
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19. Ensemble cryoEM elucidates the mechanism of insulin capture and degradation by human insulin degrading enzyme

Author

Zhang, Zhening, Liang, Wenguang G, Bailey, Lucas J, Tan, Yong Zi, Wei, Hui, Wang, Andrew, Farcasanu, Mara, Woods, Virgil A, McCord, Lauren A, Lee, David, Shang, Weifeng, Deprez-Poulain, Rebecca, Deprez, Benoit, Liu, David R, Koide, Akiko, Koide, Shohei, Kossiakoff, Anthony A, Li, Sheng, Carragher, Bridget, Potter, Clinton S, and Tang, Wei-Jen

Subjects
insulin, amyloid peptide, insulin degrading enzyme, proteostasis, cryoEM, integrative structural biology, Human
Abstract

Insulin degrading enzyme (IDE) plays key roles in degrading peptides vital in type two diabetes, Alzheimer's, inflammation, and other human diseases. However, the process through which IDE recognizes peptides that tend to form amyloid fibrils remained unsolved. We used cryoEM to understand both the apo- and insulin-bound dimeric IDE states, revealing that IDE displays a large opening between the homologous ~55 kDa N- and C-terminal halves to allow selective substrate capture based on size and charge complementarity. We also used cryoEM, X-ray crystallography, SAXS, and HDX-MS to elucidate the molecular basis of how amyloidogenic peptides stabilize the disordered IDE catalytic cleft, thereby inducing selective degradation by substrate-assisted catalysis. Furthermore, our insulin-bound IDE structures explain how IDE processively degrades insulin by stochastically cutting either chain without breaking disulfide bonds. Together, our studies provide a mechanism for how IDE selectively degrades amyloidogenic peptides and offers structural insights for developing IDE-based therapies.

Published
2018
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20. Structure of V-ATPase from citrus fruit.

Author

Tan, Yong Zi, Keon, Kristine A., Abdelaziz, Rana, Imming, Peter, Schulze, Waltraud, Schumacher, Karin, and Rubinstein, John L.

Subjects
*CITRUS fruits, *LEGIONELLA pneumophila, *LEMON, *CATALYTIC hydrolysis, *LEMON juice, *CITRUS, *PLANT membranes
Abstract

We used the Legionella pneumophila effector SidK to affinity purify the endogenous vacuolar-type ATPases (V-ATPases) from lemon fruit. The preparation was sufficient for cryoelectron microscopy, allowing structure determination of the enzyme in two rotational states. The structure defines the ATP:H+ ratio of the enzyme, demonstrating that it can establish a maximum ΔpH of ∼3, which is insufficient to maintain the low pH observed in the vacuoles of juice sac cells in lemons and other citrus fruit. Compared with yeast and mammalian enzymes, the membrane region of the plant V-ATPase lacks subunit f and possesses an unusual configuration of transmembrane α helices. Subunit H, which inhibits ATP hydrolysis in the isolated catalytic region of V-ATPase, adopts two different conformations in the intact complex, hinting at a role in modulating activity in the intact enzyme. [Display omitted] • Cryo-EM structure of citrus V-ATPase is determined • Structure shows the ATP:H+ ratio is 3:10 as in other eukaryotic V-ATPases • Citrus V-ATPase has unique arrangement of transmembrane α helices • Inhibitory subunit H adopts a conformation not seen previously in intact V-ATPases Tan, Keon et al. determine the structure of V-ATPase from lemon, revealing an unexpected conformation of the inhibitory H subunit and structural differences with V-ATPases from mammals and yeasts. [ABSTRACT FROM AUTHOR]

Published
2022
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21. CryoET of Single Particle CryoEM Grids Reveals Widespread Particle Adsorption to the Air-Water Interface, Which May be Reduced with New Plunging Techniques.

Author

Noble, Alex J., Dandey, Venkata P., Wei, Hui, Brasch, Julia, Chase, Jillian, Acharya, Priyamvada, Tan, Yong Zi, Zhang, Zhening, Kim, Laura Y., Scapin, Giovanna, Rapp, Micah, Eng, Edward T., Rice, William J., Cheng, Anchi, Negro, Carl J., Shapiro, Lawrence, Peter D., Kwong, Jeruzalmi, David, and des Georges, Amedee

Published
2019
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22. High Throughput Expression Screening of Arabinofuranosyltransferases from Mycobacteria.

Author

Rodrigues, José, Almeida, Vanessa T., Rosário, Ana L., Tan, Yong Zi, Kloss, Brian, Mancia, Filippo, Archer, Margarida, and Wurm, Florian M.

Subjects
HIGH throughput screening (Drug development), DRUG target, MYCOBACTERIA, MEMBRANE proteins, ANTITUBERCULAR agents, THERAPEUTICS
Abstract

Studies on membrane proteins can help to develop new drug targets and treatments for a variety of diseases. However, membrane proteins continue to be among the most challenging targets in structural biology. This uphill endeavor can be even harder for membrane proteins from Mycobacterium species, which are notoriously difficult to express in heterologous systems. Arabinofuranosyltransferases are involved in mycobacterial cell wall synthesis and thus potential targets for antituberculosis drugs. A set of 96 mycobacterial genes coding for Arabinofuranosyltransferases was selected, of which 17 were successfully expressed in E. coli and purified by metal-affinity chromatography. We herein present an efficient high-throughput strategy to screen in microplates a large number of targets from Mycobacteria and select the best conditions for large-scale protein production to pursue functional and structural studies. This methodology can be applied to other targets, is cost and time effective and can be implemented in common laboratories. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Cryo-EM Structures and Regulation of Arabinofuranosyltransferase AftD from Mycobacteria.

Author

Tan, Yong Zi, Zhang, Lei, Rodrigues, José, Zheng, Ruixiang Blake, Giacometti, Sabrina I., Rosário, Ana L., Kloss, Brian, Dandey, Venkata P., Wei, Hui, Brunton, Richard, Raczkowski, Ashleigh M., Athayde, Diogo, Catalão, Maria João, Pimentel, Madalena, Clarke, Oliver B., Lowary, Todd L., Archer, Margarida, Niederweis, Michael, Potter, Clinton S., and Carragher, Bridget

Subjects
*GLYCANS, *ACYL carrier protein, *MYCOBACTERIA, *MYCOBACTERIUM tuberculosis
Abstract

Mycobacterium tuberculosis causes tuberculosis, a disease that kills over 1 million people each year. Its cell envelope is a common antibiotic target and has a unique structure due, in part, to two lipidated polysaccharides—arabinogalactan and lipoarabinomannan. Arabinofuranosyltransferase D (AftD) is an essential enzyme involved in assembling these glycolipids. We present the 2.9-Å resolution structure of M. abscessus AftD, determined by single-particle cryo-electron microscopy. AftD has a conserved GT-C glycosyltransferase fold and three carbohydrate-binding modules. Glycan array analysis shows that AftD binds complex arabinose glycans. Additionally, AftD is non-covalently complexed with an acyl carrier protein (ACP). 3.4- and 3.5-Å structures of a mutant with impaired ACP binding reveal a conformational change, suggesting that ACP may regulate AftD function. Mutagenesis experiments using a conditional knockout constructed in M. smegmatis confirm the essentiality of the putative active site and the ACP binding for AftD function. • Cryo-EM structures of mycobacterial arabinofuranosyltransferase D (AftD) were solved • AftD has a conserved GT-C glycosyltransferase fold and binds complex arabinose glycans • Acyl carrier protein (ACP) is complexed to AftD, also endogenously • Impairment of ACP binding alters conformation, suggesting ACP plays a regulatory role Tan et al. present the cryo-EM structures of essential wild-type and mutant mycobacterial arabinofuranosyltransferase D (AftD), revealing the putative active site geometry and carbohydrate-binding modules. Acyl carrier protein (ACP) was tightly associated with AftD. Impairing ACP binding blocks AftD's active site, suggesting that ACP regulates enzyme function. [ABSTRACT FROM AUTHOR]

Published
2020
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24. CryoET of Single Particle CryoEM Grids Reveals Widespread Particle Adsorption to the Air-Water Interface, Which May be Reduced with New Plunging Techniques.

Author

Noble, Alex J., Dandey, Venkata P., Wei, Hui, Brasch, Julia, Chase, Jillian, Acharya, Priyamvada, Tan, Yong Zi, Zhang, Zhening, Kim, Laura Y., Scapin, Giovanna, Rapp, Micah, Eng, Edward T., Rice, William J., Cheng, Anchi, Negro, Carl J., Shapiro, Lawrence, Peter D., Kwong, Jeruzalmi, David, and des Georges, Amedee

Published
2018
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25. The structure of a 15-stranded actin-like filament from Clostridium botulinum.

Author

Koh, Fujiet, Narita, Akihiro, Lee, Lin Jie, Tanaka, Kotaro, Tan, Yong Zi, Dandey, Venkata P., Popp, David, and Robinson, Robert C.

Abstract

Microfilaments (actin) and microtubules represent the extremes in eukaryotic cytoskeleton cross-sectional dimensions, raising the question of whether filament architectures are limited by protein fold. Here, we report the cryoelectron microscopy structure of a complex filament formed from 15 protofilaments of an actin-like protein. This actin-like ParM is encoded on the large pCBH Clostridium botulinum plasmid. In cross-section, the ~26 nm diameter filament comprises a central helical protofilament surrounded by intermediate and outer layers of six and eight twisted protofilaments, respectively. Alternating polarity of the layers allows for similar lateral contacts between each layer. This filament design is stiffer than the actin filament, and has likely been selected for during evolution to move large cargos. The comparable sizes of microtubule and pCBH ParM filaments indicate that larger filament architectures are not limited by the protomer fold. Instead, function appears to have been the evolutionary driving force to produce broad, complex filaments. The plasmid-segregating actin-like protein ParM is encoded on the large, toxin carrying plasmid pCBH from Clostridium botulinum. Here the authors present the cryo-EM structure of the ParM filament that is formed from the association of 15 protofilaments and discuss its architecture. [ABSTRACT FROM AUTHOR]

Published
2019
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26. Modular Assembly of the Bacterial Large Ribosomal Subunit.

Author

Davis, Joseph H., Tan, Yong Zi, Carragher, Bridget, Potter, Clinton S., Lyumkis, Dmitry, and Williamson, James R.

Subjects
*RIBOSOMAL RNA, *MASS spectrometry, *QUANTITATIVE research, *RNA folding, *ELECTRON microscopy, *CYTOLOGY periodicals
Abstract

Summary The ribosome is a complex macromolecular machine and serves as an ideal system for understanding biological macromolecular assembly. Direct observation of ribosome assembly in vivo is difficult, as few intermediates have been isolated and thoroughly characterized. Herein, we deploy a genetic system to starve cells of an essential ribosomal protein, which results in the accumulation of assembly intermediates that are competent for maturation. Quantitative mass spectrometry and single-particle cryo-electron microscopy reveal 13 distinct intermediates, which were each resolved to ∼4–5 Å resolution and could be placed in an assembly pathway. We find that ribosome biogenesis is a parallel process, that blocks of structured rRNA and proteins assemble cooperatively, and that the entire process is dynamic and can be “re-routed” through different pathways as needed. This work reveals the complex landscape of ribosome assembly in vivo and provides the requisite tools to characterize additional assembly pathways for ribosomes and other macromolecular machines. [ABSTRACT FROM AUTHOR]

Published
2016
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27. Spotiton: New features and applications.

Author

Dandey, Venkata P., Wei, Hui, Zhang, Zhening, Tan, Yong Zi, Acharya, Priyamvada, Eng, Edward T., Rice, William J., Kahn, Peter A., Potter, Clinton S., and Carragher, Bridget

Subjects
*PARTICLES, *APPLICATION software, *MOBILE apps, *CRYOPROTECTIVE agents, *VITRIFICATION
Abstract

We present an update describing new features and applications of Spotiton, a novel instrument for vitrifying samples for cryoEM. We have used Spotiton to prepare several test specimens that can be reconstructed using routine single particle analysis to ∼3 Å resolution, indicating that the process has no apparent deleterious effect on the sample integrity. The system is now in routine and continuous use in our lab and has been used to successfully vitrify a wide variety of samples. [ABSTRACT FROM AUTHOR]

Published
2018
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28. Overcoming Resolution Attenuation During Tilted Cryo-EM Data Collection.

Author

Aiyer S, Baldwin PR, Tan SM, Shan Z, Oh J, Mehrani A, Bowman ME, Louie G, Passos DO, Đorđević-Marquardt S, Mietzsch M, Hull JA, Hoshika S, Barad BA, Grotjahn DA, McKenna R, Agbandje-McKenna M, Benner SA, Noel JAP, Wang D, Tan YZ, and Lyumkis D

Abstract

Structural biology efforts using cryogenic electron microscopy are frequently stifled by specimens adopting "preferred orientations" on grids, leading to anisotropic map resolution and impeding structure determination. Tilting the specimen stage during data collection is a generalizable solution but has historically led to substantial resolution attenuation. Here, we develop updated data collection and image processing workflows and demonstrate, using multiple specimens, that resolution attenuation is negligible or significantly reduced across tilt angles. Reconstructions with and without the stage tilted as high as 60° are virtually indistinguishable. These strategies allowed the reconstruction to 3 Å resolution of a bacterial RNA polymerase with preferred orientation. Furthermore, we present a quantitative framework that allows cryo-EM practitioners to define an optimal tilt angle for dataset acquisition. These data reinforce the utility of employing stage tilt for data collection and provide quantitative metrics to obtain isotropic maps.

Published
2023
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29. CryoEM of endogenous mammalian V-ATPase interacting with the TLDc protein mEAK-7.

Author

Tan YZ, Abbas YM, Wu JZ, Wu D, Keon KA, Hesketh GG, Bueler SA, Gingras AC, Robinson CV, Grinstein S, and Rubinstein JL

Subjects
Animals, Cryoelectron Microscopy, Mammals metabolism, Protein Binding, Protein Subunits chemistry, Swine, Vacuolar Proton-Translocating ATPases chemistry, Vacuolar Proton-Translocating ATPases metabolism
Abstract

V-ATPases are rotary proton pumps that serve as signaling hubs with numerous protein binding partners. CryoEM with exhaustive focused classification allowed detection of endogenous proteins associated with porcine kidney V-ATPase. An extra C subunit was found in ∼3% of complexes, whereas ∼1.6% of complexes bound mEAK-7, a protein with proposed roles in dauer formation in nematodes and mTOR signaling in mammals. High-resolution cryoEM of porcine kidney V-ATPase with recombinant mEAK-7 showed that mEAK-7's TLDc domain interacts with V-ATPase's stator, whereas its C-terminal α helix binds V-ATPase's rotor. This crosslink would be expected to inhibit rotary catalysis. However, unlike the yeast TLDc protein Oxr1p, exogenous mEAK-7 does not inhibit V-ATPase and mEAK-7 overexpression in cells does not alter lysosomal or phagosomal pH. Instead, cryoEM suggests that the mEAK-7:V-ATPase interaction is disrupted by ATP-induced rotation of the rotor. Comparison of Oxr1p and mEAK-7 binding explains this difference. These results show that V-ATPase binding by TLDc domain proteins can lead to effects ranging from strong inhibition to formation of labile interactions that are sensitive to the enzyme's activity., (© 2022 Tan et al.)

Published
2022
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30. Better, Faster, Cheaper: Recent Advances in Cryo-Electron Microscopy.

Author

Chua EYD, Mendez JH, Rapp M, Ilca SL, Tan YZ, Maruthi K, Kuang H, Zimanyi CM, Cheng A, Eng ET, Noble AJ, Potter CS, and Carragher B

Subjects
Cryoelectron Microscopy methods, Humans, SARS-CoV-2, Single Molecule Imaging, COVID-19, Pandemics
Abstract

Cryo-electron microscopy (cryo-EM) continues its remarkable growth as a method for visualizing biological objects, which has been driven by advances across the entire pipeline. Developments in both single-particle analysis and in situ tomography have enabled more structures to be imaged and determined to better resolutions, at faster speeds, and with more scientists having improved access. This review highlights recent advances at each stageof the cryo-EM pipeline and provides examples of how these techniques have been used to investigate real-world problems, including antibody development against the SARS-CoV-2 spike during the recent COVID-19 pandemic.

Published
2022
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31. Structure and Function of Mycobacterial Arabinofuranosyltransferases.

Author

Tan YZ and Mancia F

Subjects
Anti-Bacterial Agents, Cell Membrane, Cell Wall, Humans, Mycobacterium, Mycobacterium tuberculosis
Abstract

The mycobacteria genus is responsible for numerous infectious diseases that have afflicted the human race since antiquity-tuberculosis and leprosy in particular. An important contributor to their evolutionary success is their unique cell envelope, which constitutes a quasi-impermeable barrier, protecting the microorganism from external threats, antibiotics included. The arabinofuranosyltransferases are a family of enzymes, unique to the Actinobacteria family that mycobacteria genus belongs to, that are critical to building of this cell envelope. In this chapter, we will analyze available structures of members of the mycobacterial arabinofuranosyltransferase, clarify their function, as well as explore the common themes present amongst this family of enzymes, as revealed by recent research., (© 2022. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published
2022
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32. Seeing Atoms: Single-Particle Cryo-EM Breaks the Atomic Barrier.

Author

Tan YZ and Carragher B

Subjects
Crystallography, X-Ray, Imaging, Three-Dimensional, Software, Cryoelectron Microscopy, Molecular Biology methods, Proteins ultrastructure
Abstract

The goal of structural biology is to understand biological macromolecules in as much detail as possible. Depending on the resolution of the structure obtained, insights will range from understanding interactions at the level of proteins, domains, or atoms. The three mainstay structural biology techniques are X-ray crystallography, nuclear magnetic resonance (NMR) imaging, and cryogenic electron microscopy (cryo-EM). Cryo-EM has rapidly gained popularity in recent years due to a combination of hardware and software advances, leading to the so-called Resolution Revolution (Kühlbrandt, 2014)., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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33. Electron-event representation data enable efficient cryoEM file storage with full preservation of spatial and temporal resolution.

Author

Guo H, Franken E, Deng Y, Benlekbir S, Singla Lezcano G, Janssen B, Yu L, Ripstein ZA, Tan YZ, and Rubinstein JL

Abstract

Direct detector device (DDD) cameras have revolutionized electron cryomicroscopy (cryoEM) with their high detective quantum efficiency (DQE) and output of movie data. A high ratio of camera frame rate (frames per second) to camera exposure rate (electrons per pixel per second) allows electron counting, which further improves the DQE and enables the recording of super-resolution information. Movie output also allows the correction of specimen movement and compensation for radiation damage. However, these movies come at the cost of producing large volumes of data. It is common practice to sum groups of successive camera frames to reduce the final frame rate, and therefore the file size, to one suitable for storage and image processing. This reduction in the temporal resolution of the camera requires decisions to be made during data acquisition that may result in the loss of information that could have been advantageous during image analysis. Here, experimental analysis of a new electron-event representation (EER) data format for electron-counting DDD movies is presented, which is enabled by new hardware developed by Thermo Fisher Scientific for their Falcon DDD cameras. This format enables the recording of DDD movies at the raw camera frame rate without sacrificing either spatial or temporal resolution. Experimental data demonstrate that the method retains super-resolution information and allows the correction of specimen movement at the physical frame rate of the camera while maintaining manageable file sizes. The EER format will enable the development of new methods that can utilize the full spatial and temporal resolution of DDD cameras., (© Hui Guo et al. 2020.)

Published
2020
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34. Routine single particle CryoEM sample and grid characterization by tomography.

Author

Noble AJ, Dandey VP, Wei H, Brasch J, Chase J, Acharya P, Tan YZ, Zhang Z, Kim LY, Scapin G, Rapp M, Eng ET, Rice WJ, Cheng A, Negro CJ, Shapiro L, Kwong PD, Jeruzalmi D, des Georges A, Potter CS, and Carragher B

Subjects
Air analysis, Animals, Apoferritins ultrastructure, Cryoelectron Microscopy methods, DnaB Helicases ultrastructure, Electron Microscope Tomography methods, Escherichia coli chemistry, Escherichia coli enzymology, Fructose-Bisphosphate Aldolase ultrastructure, Proteasome Endopeptidase Complex ultrastructure, Rabbits, Sugar Alcohol Dehydrogenases ultrastructure, Surface Properties, Water chemistry, Cryoelectron Microscopy instrumentation, Electron Microscope Tomography instrumentation
Abstract

Single particle cryo-electron microscopy (cryoEM) is often performed under the assumption that particles are not adsorbed to the air-water interfaces and in thin, vitreous ice. In this study, we performed fiducial-less tomography on over 50 different cryoEM grid/sample preparations to determine the particle distribution within the ice and the overall geometry of the ice in grid holes. Surprisingly, by studying particles in holes in 3D from over 1000 tomograms, we have determined that the vast majority of particles (approximately 90%) are adsorbed to an air-water interface. The implications of this observation are wide-ranging, with potential ramifications regarding protein denaturation, conformational change, and preferred orientation. We also show that fiducial-less cryo-electron tomography on single particle grids may be used to determine ice thickness, optimal single particle collection areas and strategies, particle heterogeneity, and de novo models for template picking and single particle alignment., Competing Interests: AN, VD, HW, JB, JC, PA, YT, ZZ, LK, GS, MR, EE, WR, AC, CN, LS, PK, DJ, Ad, CP, BC No competing interests declared

Published
2018
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35. Automated data collection in single particle electron microscopy.

Author

Tan YZ, Cheng A, Potter CS, and Carragher B

Subjects
Automation, Cryoelectron Microscopy instrumentation, Data Collection, Software, Cryoelectron Microscopy methods, Image Processing, Computer-Assisted methods
Abstract

Automated data collection is an integral part of modern workflows in single particle electron microscopy (EM) research. This review surveys the software packages available for automated single particle EM data collection. The degree of automation at each stage of data collection is evaluated, and the capabilities of the software packages are described. Finally, future trends in automation are discussed., (© The Author 2015. Published by Oxford University Press on behalf of The Japanese Society of Microscopy. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2016
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