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12. Automated Filament Finding and Selection from Cryo Electron Micrographs

Author

Zhu, Y, Carragher, B, and Potter, CS

Abstract

For several years, we have been involved in developing a completely automated system for cryoelectron microscopy, which will allow a 3D electron density map of a macromolecular structure to be generated from a specimen inserted into the microscope with no manual intervention required by an operator. Towards this goal, we have developed a system, called Leginon, to automatically acquire images from the electron microscope. In order to integrate the 3D reconstruction process with the data acquisition step we need then to automatically identify and segment objects from the electron micrographs. This presents a challenge, particularly in the case when micrographs are acquired very close to focus, which results in an image with extremely low contrast. We present here the results of a two-stage automated process for detecting and selecting filamentous structures from images of this kind. Images are acquired in defocus pairs; a near-to-focus (NTF) image is acquired first, followed by a far-from-focus (FFF) image. In the first stage of the process, a threelevel perceptual organization algorithm is used to identify and segment filaments in the FFF image. In the second stage the NTF image is aligned to the FFF image using phase correlation techniques and the filaments are selected at the same coordinates as were identified in the FFF image.In humans, perceptual organization is the ability to immediately detect structural relationships such as co-linearity, parallelism, and connectivity among image elements. Researchers in human vision perception have long recognized the importance of the common rules by which our visual system attempts to group information. Some of these rules include proximity, similarity, common fate, continuation and closure.

Published
2001
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13. Application of a SQL Database for Automated Image Acquisition and Analysis for CRYOEM

Author

Fellmann, D, Carragher, B, Potter, CS, and Pulokas, J

Abstract

We have been developing a software system, called Leginon, for the control and acquisition of images from a transmission electron microscope. This software allows for the automatic acquisition of images under low dose conditions from a specimen embedded in vitreous ice. Thousands of images are collected during each session at the microscope. These images are collected at various magnifications and under a variety of conditions. For example, images are collected of the entire grid, individual grid squares, individual holes within the square, and several high magnification images are acquired for one to several targets within each hole (figure 1). in addition, for each identified hole an image is acquired at the low dose focus position. Power spectra are also calculated for each of the high magnification images as well as for the focus images. For managing these images we are using a relational database management system. We have also developed a bench of tools to store, access, and display the data as well as tools for extracting information from the database.A database is a structured collection of data in which the information is classified by categories. Each category is then stored in a table and these tables are linked together by defined relations. Data may be combined from several tables on request. We have been using MySQL as our relational database management system. This allows us both to manage the images and to refer each image to its real context. in other words, through the database, we can keep track of information related to the microscope settings (e.g. defocus, electron dose, magnification, goniometer coordinates etc.), the type of image, and overall information about the specimen and the experiment.

Published
2001
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14. Automated Very Low Magnification Imaging for TEM

Author

Potter, CS, Carragher, B, Kriegman, D, and Pulokas, J

Abstract

A typical TEM specimen grid provides approximately a 2×2 mm area that is available for imaging. in order to identify and locate suitable targets on the grid the microscopist must usually inspect the grids at magnifications that allow for only a small area of the grid in the field of view at a time. Systematically searching the grid and mentally keeping track of relative locations presents a challenge for a microscopist especially as the image normally rotates as the magnification is changed. We present an automated technique that creates a very low magnification (VLM) image of the entire available imaging area on the grid. The VLM image can then be used as a reference map for searching the grid at high magnification.VLM images were obtained at a nominal magnification of 57x using a Philips CM200 TEM equipped with a Gatan CCD camera. The VLM image of the entire 2 mm specimen grid can be created using a mosaic of 49 images, each 512×512 pixels in size. The sampling distance between the images in the 7×7 array is 300μm and the pixel size is 680nm. The images are then automatically tiled and re-sampled to form a final VLM matrix of 4K×4K with a pixel size of 730nm. The resampling factors for the tiling operation include the scale and the relative angle between the camera and goniometer axes. These factors are determined automatically from a calibration process that characterizes the goniometer.

Published
2001
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15. Automation for Cryo-TEM: from Specimen Grid to 3D Map

Author

Carragher, B, Fellmann, D, Kisseberth, N, Milligan, RA, Potter, CS, Pulokas, J, and Zhu, Y

Abstract

Cryo-electron microscopy is becoming an increasingly powerful tool for solving the structure of protein complexes and has the potential to address problems that cannot be solved using other methods. The field however suffers from several major disadvantages related to the time required to acquire, process and analyze the data and the tedium of using the current prevailing methods. We have for some time been working towards the goal of developing a system that will result in a 3D map of a macromolecular structure automatically and within hours of inserting a specimen into a transmission electron microscope. We propose that these automated methods for data collection and analysis will have a significant impact in transferring the cryo-electron microscopy technology to the general biological community as well as in increasing the volume of data that can be collected during a single session at the microscope.The Leginon system that we have developed is designed to emulate all of the decisions and actions of a highly trained microscopist in collecting data from a vitreous ice specimen. These include identifying suitable areas of vitreous ice at low magnification, determining the presence and location of specimen on the grid, automatically adjusting imaging parameters (focus, astigmatism) under low dose conditions and acquiring images at high magnification to either film or a digital camera.

Published
2001
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16. An XML Language Template Design for Managing a Remote Instrument Educational Outreach Project

Author

Lazarevich, A, Carragher, B, Potter, CS, and Weber, D

Abstract

For the past two years we have been operating a remote instrument educational project called Bugscope. Bugscope is an educational outreach project that provides access to an environmental scanning electron microscope (ESEM) for K-12 classrooms. While the operational aspects of the project require a minimal amount of staff time, the information management for the project is difficult for a small microscopy research group to support without a significant allocation of resources away from the group’s principal research goals. in an effort to alleviate this problem we have begun, in the past five months, to develop a software toolkit called ‘Information Technology for Outreach Projects’ (ITOP) - using the Bugscope project as a test bed. The goal of ITOP is to make it practical for academic research groups to provide scientific resources for educational outreach projects by automating many of the administrative and data handling tasks.

Published
2001
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17. Bugscope: The Second Year of a Sustainable Remote Microscope Project for K-12 Education Outreach.

Author

Potter, CS, Carragher, B, Carroll, L, Conway, C, Grosser, B, Hanlon, J, Kisseberth, N, Robinson, S, Stone, D, Thakkar, U, and Weber, D

Abstract

Bugscope is a second generation educational project in the World Wide Laboratory that provides web browser based control of scientific imaging instrumentation using the Internet. We had previously demonstrated web based remote access to sophisticated scientific imaging systems several years ago in the Chickscope project. The primary goal of the Bugscope project is to demonstrate that relatively low cost, sustainable access to an environmental scanning electron microscope (ESEM) can be made available to K-12 classrooms.Methods:To participate in the project, a classroom submits a web based application that describes how they plan to use the microscope. If the application is accepted, a one hour session on the ESEM is scheduled and the classroom mails in their chosen specimen. During their access time, classrooms use a standard web browser over the Internet to control and acquire images from the ESEM (Philips/FEI XL-30FEG).

Published
2000
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18. An Interactive User Interface for Automated Acquisition of Transmission Electron Micrographs

Author

Pulokas, J, Kisseberth, N, Potter, CS, and Carragher, B

Abstract

For several years we have been developing a software application, called Leginon, for the automated control and acquisition of images from a transmission electron microscope. The system has been developed around a Philips CM200 and a Gatan MSC CCD camera. One of the primary motivations in developing this software is to provide for a system that can acquire many hundreds of images under low dose conditions from a specimen embedded in vitreous ice. In order to set up and manage this system we have developed a number of simple interactive graphical tools that enable the user to design, oversee and manage protocols for controlling the microscope and collecting the images. Many of these simple tools have also proved generally useful as stand alone applications.

Published
2000
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19. An Integrated System for Transmission Electron Microscopy.

Author

Carragher, B, Kisseberth, N, Kriegman, D, Milligan, RA, Potter, CS, Pulokas, J, and Reilein, A

Abstract

Macromolecular microscopy is becoming an increasingly important tool for structural biology. The development of improved capabilities for three-dimensional electron microscopy is critical for optimal progress in emerging integrative research in molecular cell biology. These techniques currently suffer from several severe disadvantages related to the tremendous time and effort required to acquire and analyze the data.For several years we have been developing software for automated and intelligent acquisition of transmission electron micrographs [1,2,3]. Our overall goal is to develop a system for rapid and routine structure determination of macromolecular assemblies from specimens preserved in vitreous ice. Ultimately we plan to develop an integrated system that can produce an electron density map of a structure within a few hours of inserting a specimen into the electron microscope. With this goal in mind it is essential that the images be acquired using a digital camera rather than film.

Published
2000
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20. Bugscope: a Sustainable Web-Based Telemicroscopy Project for K-12 Classrooms

Author

Potter, CS, Carragher, B, Ceperley, M, Conway, C, Grosser, B, Hanlon, J, Hoyer, C, Kisseberth, N, Robinson, S, Sapp, J, Soskin, P, Stone, D, Thakkar, U, and Weber, D

Abstract

Bugscope is a new educational project in the World Wide Laboratory. The World Wide Laboratory provides Web browser based control of scientific imaging instrumentation using the Internet [1]. Providing K-12 classrooms with web based remote access to sophisticated scientific imaging systems was initially demonstrated by us in 1996 in the Chickscope project [2,3]. Chickscope allowed students to study chicken embryo development using a remotely controlled magnetic resonance imaging (MRI) system from their classrooms. While the Chickscope project was highly successful, the resources required to provide operational support for the remote imaging aspects of the project for a small number of classrooms were enormous and the project was not sustainable. The Bugscope project builds on the methods developed and the lessons learned from the Chickscope project. The primary goal is to demonstrate that relatively low cost, sustainable access to an environmental scanning electron microscope (ESEM) can be made available to K-12 classrooms to examine arthropods.Methods: Classrooms use a standard web browser over the Internet to control and acquire images from a Philips XL-30FEG ESEM. The architecture to support remote acquisition is shown in fig. 1. The client/server control architecture for the ESEM remote control server is based on the emScope control library [4].

Published
1999
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21. Automated Acquisition of Cryo Electron Micrographs Using Leginon

Author

Carragher, B, Jojic, N, Milligan, R A, Kisseberth, N, Pulokas, J, Potter, CS, and Reilein, A

Abstract

Molecular microscopy is one of the most important structural approaches in cell biological investigations and can provide insight into complex biological questions that no other technique can provide. Currently, the technique typically requires the acquisition of very large numbers of transmission electron micrographs from frozen hydrated specimens using low dose techniques. The field is constrained by manual data acquisition methods that are slow, labor-intensive and result in a very low percentage of suitable images. We have developed a system, called Leginon, for automatically acquiring images from a transmission electron microscope. Our first prototype of this system demonstrated that we could acquire 1000 high magnification images per day from negatively stained catalase crystals. We have now extended this system to acquire low dose images of specimens embedded in vitreous ice.Methods: Specimens were prepared on Quantifoil grids using techniques which have been described previously. The Leginon system uses a Philips CM200 TEM and a Gatan MSC CCD camera and is controlled by the emScope software library. The overall acquisition protocol requires (i) obtaining a low magnification image [660x] of a grid square from a Quantifoil grid (fig. 1a); (ii) automatically identifying holes containing ice of suitable thickness; (iii) acquiring an intermediate magnification image [6600x] of the identified hole (fig. 1b); (iv) identifying features of interest within the hole; (v) focusing at high magnification [38,000x] and finally (vi) acquiring a high magnification image (fig 1c,d).

Published
1999
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22. Improving the Positional Accuracy of the Goniometer on the Philips CM200 TEM.

Author

Pulokas, J, Green, C, Kisseberth, N, Potter, CS, and Carragher, B

Abstract

We have developed a system (1) for automatically acquiring large numbers of high quality transmission electron micrographs under low dose conditions. This system has been implemented on a Philips CM200 Transmission Electron Microscope equipped with a Gatan MSC CCD camera. Implementing the automated data acquisition system requires that target locations be identified in a low magnification image and then accurately located at the center of the viewing area. The magnification is subsequently increased, the image is focused on an area adjacent to the target area and the final image is acquired. Centering an identified target location for subsequent high magnification imaging typically requires moving the specimen by many thousands of nm and accurately locating the target to within a few hundred nm. This movement is too large to be achieved using the image shift coils, which would be very accurate, and instead must be achieved using the goniometer.We have measured the accuracy of the goniometer on the Philips CM200 and the results are shown in fig 1. Data were obtained by selecting a target area from a low magnification image [660x], moving to this target and then measuring the accuracy of the requested movement by cross correlation.

Published
1999
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23. A Testbed for Automated Acquistion From a TEM

Author

Potter, CS, Carragher, B, Chu, H, Frey, B J, Josephs, R, Lin, C, Kisseberth, N, Miller, KL, and Nahrstedt, K

Abstract

We are developing a testbed for automated identification of specimens, and acquisition of high resolution images for 3D macromolecular EM. Several software package which have been developed specifically for acquisition of tomographic data sets have illustrated the benefits of automation. These software packages require the user to identify a specimen of interest and then automatically acquire a single tilt series from the identified specimen. The testbed we are developing will provide a generalized system for specimen identification, image acquisition and image quality assessment. The goals of the testbed are to provide a system that will acquire EM images unattended by an operator.The testbed integrates a computer controlled TEM with a distributed real-time image processing environment. Computerized control and image acquisition from the TEM uses the emScope software package (1). This is coupled to existing image processing software packages and new software tools developed specifically for this project.

Published
1998
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24. Early intermediates in bacterial RNA polymerase promoter melting visualized by time-resolved cryo-electron microscopy.

Author

Saecker RM, Mueller AU, Malone B, Chen J, Budell WC, Dandey VP, Maruthi K, Mendez JH, Molina N, Eng ET, Yen LY, Potter CS, Carragher B, and Darst SA

Subjects
Models, Molecular, Transcription, Genetic, Escherichia coli Proteins metabolism, Escherichia coli Proteins ultrastructure, Escherichia coli Proteins chemistry, Escherichia coli Proteins genetics, DNA, Bacterial metabolism, DNA, Bacterial ultrastructure, Cryoelectron Microscopy, DNA-Directed RNA Polymerases metabolism, DNA-Directed RNA Polymerases chemistry, DNA-Directed RNA Polymerases ultrastructure, Promoter Regions, Genetic, Escherichia coli genetics, Escherichia coli metabolism, Sigma Factor metabolism, Sigma Factor chemistry, Sigma Factor ultrastructure, Sigma Factor genetics
Abstract

During formation of the transcription-competent open complex (RPo) by bacterial RNA polymerases (RNAPs), transient intermediates pile up before overcoming a rate-limiting step. Structural descriptions of these interconversions in real time are unavailable. To address this gap, here we use time-resolved cryogenic electron microscopy (cryo-EM) to capture four intermediates populated 120 ms or 500 ms after mixing Escherichia coli σ 70 -RNAP and the λP R promoter. Cryo-EM snapshots revealed that the upstream edge of the transcription bubble unpairs rapidly, followed by stepwise insertion of two conserved nontemplate strand (nt-strand) bases into RNAP pockets. As the nt-strand 'read-out' extends, the RNAP clamp closes, expelling an inhibitory σ 70 domain from the active-site cleft. The template strand is fully unpaired by 120 ms but remains dynamic, indicating that yet unknown conformational changes complete RPo formation in subsequent steps. Given that these events likely describe DNA opening at many bacterial promoters, this study provides insights into how DNA sequence regulates steps of RPo formation., Competing Interests: Competing interests The authors declare there are no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2024
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25. Pixel walking along the boreal forest-Arctic tundra ecotone: Large scale ground-truthing of satellite-derived greenness (NDVI).

Author

Wong RE, Berner LT, Sullivan PF, Potter CS, and Dial RJ

Subjects
Alaska, Arctic Regions, Remote Sensing Technology methods, Taiga, Environmental Monitoring methods, Satellite Imagery, Tundra
Abstract

In this Technical Advance, we describe a novel method to improve ecological interpretation of remotely sensed vegetation greenness measurements that involved sampling 24,395 Landsat pixels (30 m) across 639 km of Alaska's central Brooks Range. The method goes well beyond the spatial scale of traditional plot-based sampling and thereby more thoroughly relates ground-based observations to satellite measurements. Our example dataset illustrates that, along the boreal-Arctic boundary, vegetation with the greatest Landsat Normalized Difference Vegetation Index (NDVI) is taller than 1 m, woody, and deciduous; whereas vegetation with lower NDVI tends to be shorter, evergreen, or non-woody. The field methods and associated analyses advance efforts to inform satellite data with ground-based vegetation observations using field samples collected at spatial scales that closely match the resolution of remotely sensed imagery., (© 2024 John Wiley & Sons Ltd.)

Published
2024
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26. Automated pipelines for rapid evaluation during cryoEM data acquisition.

Author

Mendez JH, Chua EYD, Paraan M, Potter CS, and Carragher B

Subjects
Humans, Cryoelectron Microscopy methods, Automation, Image Processing, Computer-Assisted methods, Software
Abstract

Cryo-electron microscopy (cryoEM) has become a popular method for determining high-resolution structures of biomolecules. However, data processing can be time-consuming, particularly for new researchers entering the field. To improve data quality and increase data collection efficiency, several software packages have been developed for on-the-fly data processing with various degrees of automation. These software packages allow researchers to perform tasks such as motion correction, CTF estimation, 2D classification, and 3D reconstruction in real-time, with minimal human input. On-the-fly data processing can not only improve data collection efficiency but also increase the productivity of instrumentation in high demand. However, the various software packages available differ in their performance, computational requirements, and levels of automation. In this review, we describe the minimal metrics used to assess data quality during data collection, outline the features of an ideal on-the-fly data processing software systems, and provide results from using three of these systems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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27. The next decade in structural biology.

Author

Walsh MA, Nannenga BL, Gonen T, Sexton PM, Wootten D, Chiu W, Sun F, Carragher B, Potter CS, Agard D, and Burley SK

Subjects
Molecular Biology trends
Abstract

As we celebrate the 30 th anniversary of Structure, we have asked structural biologists about their expectations on how their respective fields are likely to develop in the next ten years in this collection of Voices., Competing Interests: Declaration of interests P.M.S. is a scientific co-founder and shareholder of Septerna Inc. D.W. is a shareholder of Septerna Inc. P.M.S. and D.W. consult for Septerna Inc. P.M.S. and D.W. are co-founders and shareholders in DACRA Therapeutics. P.M.S. and D.W. receive research funding from the following companies: AstraZeneca, Astex Pharmaceuticals, Boehringer Ingelheim, Dimerix, Novo Nordisk, Pfizer, and Septerna Inc., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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28. Mimotope discovery as a tool to design a vaccine against Zika and dengue viruses.

Author

Cuevas-Juárez E, Liñan-Torres A, Hernández C, Kopylov M, Potter CS, Carragher B, Ramírez OT, and Palomares LA

Subjects
Humans, Antibodies, Viral, Viral Envelope Proteins chemistry, Antibodies, Neutralizing, Epitopes, Cross Reactions, Zika Virus, Zika Virus Infection prevention & control, Dengue Virus chemistry, Dengue prevention & control, Vaccines
Abstract

Vaccine development against dengue virus is challenging because of the antibody-dependent enhancement of infection (ADE), which causes severe disease. Consecutive infections by Zika (ZIKV) and/or dengue viruses (DENV), or vaccination can predispose to ADE. Current vaccines and vaccine candidates contain the complete envelope viral protein, with epitopes that can raise antibodies causing ADE. We used the envelope dimer epitope (EDE), which induces neutralizing antibodies that do not elicit ADE, to design a vaccine against both flaviviruses. However, EDE is a discontinuous quaternary epitope that cannot be isolated from the E protein without other epitopes. Utilizing phage display, we selected three peptides that mimic the EDE. Free mimotopes were disordered and did not elicit an immune response. After their display on adeno-associated virus (AAV) capsids (VLP), they recovered their structure and were recognized by an EDE-specific antibody. Characterization by cryo-EM and enzyme-linked immunosorbent assay confirmed the correct display of a mimotope on the surface of the AAV VLP and its recognition by the specific antibody. Immunization with the AAV VLP displaying one of the mimotopes induced antibodies that recognized ZIKV and DENV. This work provides the basis for developing a Zika and dengue virus vaccine candidate that will not induce ADE., (© 2023 The Authors. Biotechnology and Bioengineering published by Wiley Periodicals LLC.)

Published
2023
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29. Measuring the effects of ice thickness on resolution in single particle cryo-EM.

Author

Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, and Chua EYD

Abstract

Ice thickness is a critical parameter in single particle cryo-EM - too thin ice can break during imaging or exclude the sample of interest, while ice that is too thick contributes to more inelastic scattering that precludes obtaining high resolution reconstructions. Here we present the practical effects of ice thickness on resolution, and the influence of energy filters, accelerating voltage, or detector mode. We collected apoferritin data with a wide range of ice thicknesses on three microscopes with different instrumentation and settings. We show that on a 300 kV microscope, using a 20 eV energy filter slit has a greater effect on improving resolution in thicker ice; that operating at 300 kV instead of 200 kV accelerating voltage provides significant resolution improvements at an ice thickness above 150 nm; and that on a 200 kV microscope using a detector operating in super resolution mode enables good reconstructions for up to 200 nm ice thickness, while collecting in counting instead of linear mode leads to improvements in resolution for ice of 50-150 nm thickness. Our findings can serve as a guide for users seeking to optimize data collection or sample preparation routines for both single particle and in situ cryo-EM. We note that most in situ data collection is done on samples in a range of ice thickness above 150 nm so these results may be especially relevant to that community., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors.)

Published
2023
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30. Fully automated multi-grid cryoEM screening using Smart Leginon.

Author

Cheng A, Kim PT, Kuang H, Mendez JH, Chua EYD, Maruthi K, Wei H, Sawh A, Aragon MF, Serbynovskyi V, Neselu K, Eng ET, Potter CS, Carragher B, Bepler T, and Noble AJ

Subjects
Cryoelectron Microscopy methods, Algorithms, Electrons, Software, Image Processing, Computer-Assisted methods
Abstract

Single-particle cryo-electron microscopy (cryoEM) is a swiftly growing method for understanding protein structure. With increasing demand for high-throughput, high-resolution cryoEM services comes greater demand for rapid and automated cryoEM grid and sample screening. During screening, optimal grids and sample conditions are identified for subsequent high-resolution data collection. Screening is a major bottleneck for new cryoEM projects because grids must be optimized for several factors, including grid type, grid hole size, sample concentration, buffer conditions, ice thickness and particle behavior. Even for mature projects, multiple grids are commonly screened to select a subset for high-resolution data collection. Here, machine learning and novel purpose-built image-processing and microscope-handling algorithms are incorporated into the automated data-collection software Leginon, to provide an open-source solution for fully automated high-throughput grid screening. This new version, broadly called Smart Leginon, emulates the actions of an operator in identifying areas on the grid to explore as potentially useful for data collection. Smart Leginon Autoscreen sequentially loads and examines grids from an automated specimen-exchange system to provide completely unattended grid screening across a set of grids. Comparisons between a multi-grid autoscreen session and conventional manual screening by 5 expert microscope operators are presented. On average, Autoscreen reduces operator time from ∼6 h to <10 min and provides a percentage of suitable images for evaluation comparable to the best operator. The ability of Smart Leginon to target holes that are particularly difficult to identify is analyzed. Finally, the utility of Smart Leginon is illustrated with three real-world multi-grid user screening/collection sessions, demonstrating the efficiency and flexibility of the software package. The fully automated functionality of Smart Leginon significantly reduces the burden on operator screening time, improves the throughput of screening and recovers idle microscope time, thereby improving availability of cryoEM services., (open access.)

Published
2023
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31. Smart data collection for CryoEM.

Author

Bepler T, Borst AJ, Bouvette J, Cannone G, Chen S, Cheng A, Cheng A, Fan Q, Grollios F, Gupta H, Gupta M, Humphreys T, Kim PT, Kuang H, Li Y, Noble AJ, Punjani A, Rice WJ, Oscar S Sorzano C, Stagg SM, Strauss J, Yu L, Carragher B, and Potter CS

Subjects
Data Collection
Abstract

This report provides an overview of the discussions, presentations, and consensus thinking from the Workshop on Smart Data Collection for CryoEM held at the New York Structural Biology Center on April 6-7, 2022. The goal of the workshop was to address next generation data collection strategies that integrate machine learning and real-time processing into the workflow to reduce or eliminate the need for operator intervention., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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32. In situ cryo-FIB/SEM Specimen Preparation Using the Waffle Method.

Author

Klykov O, Bobe D, Paraan M, Johnston JD, Potter CS, Carragher B, Kopylov M, and Noble AJ

Abstract

Cryo-focused ion beam (FIB) milling of vitrified specimens is emerging as a powerful method for in situ specimen preparation. It allows for the preservation of native and near-native conditions in cells, and can reveal the molecular structure of protein complexes when combined with cryo-electron tomography (cryo-ET) and sub-tomogram averaging. Cryo-FIB milling is often performed on plunge-frozen specimens of limited thickness. However, this approach may have several disadvantages, including low throughput for cells that are small, or at low concentration, or poorly distributed across accessible areas of the grid, as well as for samples that may adopt a preferred orientation. Here, we present a detailed description of the "Waffle Method" protocol for vitrifying thick specimens followed by a semi-automated milling procedure using the Thermo Fisher Scientific (TFS) Aquilos 2 cryo-FIB/scanning electron microscope (SEM) instrument and AutoTEM Cryo software to produce cryo-lamellae. With this protocol, cryo-lamellae may be generated from specimens, such as microsporidia spores, yeast, bacteria, and mammalian cells, as well as purified proteins and protein complexes. An experienced lab can perform the entire protocol presented here within an 8-hour working day, resulting in two to three cryo-lamellae with target thicknesses of 100-200 nm and dimensions of approximately 12 μm width and 15-20 μm length. For cryo-FIB/SEMs with particularly low-contamination chambers, the protocol can be extended to overnight milling, resulting in up to 16 cryo-lamellae in 24 h. Graphical abstract., Competing Interests: Competing interests The authors declare no competing interests., (Copyright © 2022 The Authors; exclusive licensee Bio-protocol LLC.)

Published
2022
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33. 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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34. Waffle Method: A general and flexible approach for improving throughput in FIB-milling.

Author

Kelley K, Raczkowski AM, Klykov O, Jaroenlak P, Bobe D, Kopylov M, Eng ET, Bhabha G, Potter CS, Carragher B, and Noble AJ

Subjects
Cryoelectron Microscopy methods, Freezing, Workflow, Electron Microscope Tomography methods, Food
Abstract

Cryo-FIB/SEM combined with cryo-ET has emerged from within the field of cryo-EM as the method for obtaining the highest resolution structural information of complex biological samples in-situ in native and non-native environments. However, challenges remain in conventional cryo-FIB/SEM workflows, including milling thick specimens with vitrification issues, specimens with preferred orientation, low-throughput when milling small and/or low concentration specimens, and specimens that distribute poorly across grid squares. Here we present a general approach called the 'Waffle Method' which leverages high-pressure freezing to address these challenges. We illustrate the mitigation of these challenges by applying the Waffle Method and cryo-ET to reveal the macrostructure of the polar tube in microsporidian spores in multiple complementary orientations, which was previously not possible due to preferred orientation. We demonstrate the broadness of the Waffle Method by applying it to three additional cellular samples and a single particle sample using a variety of cryo-FIB-milling hardware, with manual and automated approaches. We also present a unique and critical stress-relief gap designed specifically for waffled lamellae. We propose the Waffle Method as a way to achieve many advantages of cryo-liftout on the specimen grid while avoiding the long, challenging, and technically-demanding process required for cryo-liftout., (© 2022. The Author(s).)

Published
2022
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35. Structural basis for the mechanisms of human presequence protease conformational switch and substrate recognition.

Author

Liang WG, Wijaya J, Wei H, Noble AJ, Mancl JM, Mo S, Lee D, Lin King JV, Pan M, Liu C, Koehler CM, Zhao M, Potter CS, Carragher B, Li S, and Tang WJ

Subjects
Cryoelectron Microscopy, Humans, Metalloproteases metabolism, Molecular Conformation, Protein Conformation, Substrate Specificity, Amyloid beta-Peptides metabolism, Mitochondria metabolism
Abstract

Presequence protease (PreP), a 117 kDa mitochondrial M16C metalloprotease vital for mitochondrial proteostasis, degrades presequence peptides cleaved off from nuclear-encoded proteins and other aggregation-prone peptides, such as amyloid β (Aβ). PreP structures have only been determined in a closed conformation; thus, the mechanisms of substrate binding and selectivity remain elusive. Here, we leverage advanced vitrification techniques to overcome the preferential denaturation of one of two ~55 kDa homologous domains of PreP caused by air-water interface adsorption. Thereby, we elucidate cryoEM structures of three apo-PreP open states along with Aβ- and citrate synthase presequence-bound PreP at 3.3-4.6 Å resolution. Together with integrative biophysical and pharmacological approaches, these structures reveal the key stages of the PreP catalytic cycle and how the binding of substrates or PreP inhibitor drives a rigid body motion of the protein for substrate binding and catalysis. Together, our studies provide key mechanistic insights into M16C metalloproteases for future therapeutic innovations., (© 2022. The Author(s).)

Published
2022
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36. Broadening access to cryoEM through centralized facilities.

Author

Zimanyi CM, Kopylov M, Potter CS, Carragher B, and Eng ET

Subjects
Molecular Structure, Cryoelectron Microscopy methods
Abstract

Cryogenic electron microscopy (cryoEM) uses images of frozen hydrated biological specimens to produce macromolecular structures, opening up previously inaccessible levels of biological organization to high-resolution structural analysis. CryoEM has the potential for broad impact in biomedical research, including basic cell, molecular, and structural biology, and increasingly in drug discovery and vaccine development. Recent advances have led to the expansion of molecular and cellular structure determination at an exponential rate. National and regional centers have emerged to support this growth by increasing the accessibility of cryoEM throughout the biomedical research community. Through cooperation and synergy, these centers form a network of resources that accelerate the adoption of best practices for access and training and establish sustainable workflows to build future research capacity., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2022
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37. Symmetric activation and modulation of the human calcium-sensing receptor.

Author

Park J, Zuo H, Frangaj A, Fu Z, Yen LY, Zhang Z, Mosyak L, Slavkovich VN, Liu J, Ray KM, Cao B, Vallese F, Geng Y, Chen S, Grassucci R, Dandey VP, Tan YZ, Eng E, Lee Y, Kloss B, Liu Z, Hendrickson WA, Potter CS, Carragher B, Graziano J, Conigrave AD, Frank J, Clarke OB, and Fan QR

Subjects
Cryoelectron Microscopy, HEK293 Cells, Humans, Models, Molecular, Protein Conformation, Protein Domains, Receptors, Calcium-Sensing genetics, Signal Transduction, Calcium metabolism, Gene Expression Regulation physiology, Homeostasis physiology, Receptors, Calcium-Sensing metabolism
Abstract

The human extracellular calcium-sensing (CaS) receptor controls plasma Ca 2+ levels and contributes to nutrient-dependent maintenance and metabolism of diverse organs. Allosteric modulation of the CaS receptor corrects disorders of calcium homeostasis. Here, we report the cryogenic-electron microscopy reconstructions of a near-full-length CaS receptor in the absence and presence of allosteric modulators. Activation of the homodimeric CaS receptor requires a break in the transmembrane 6 (TM6) helix of each subunit, which facilitates the formation of a TM6-mediated homodimer interface and expansion of homodimer interactions. This transformation in TM6 occurs without a positive allosteric modulator. Two modulators with opposite functional roles bind to overlapping sites within the transmembrane domain through common interactions, acting to stabilize distinct rotamer conformations of key residues on the TM6 helix. The positive modulator reinforces TM6 distortion and maximizes subunit contact to enhance receptor activity, while the negative modulator strengthens an intact TM6 to dampen receptor function. In both active and inactive states, the receptor displays symmetrical transmembrane conformations that are consistent with its homodimeric assembly., Competing Interests: The authors declare no competing interest.

Published
2021
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38. Small Molecule Microcrystal Electron Diffraction for the Pharmaceutical Industry-Lessons Learned From Examining Over Fifty Samples.

Author

Bruhn JF, Scapin G, Cheng A, Mercado BQ, Waterman DG, Ganesh T, Dallakyan S, Read BN, Nieusma T, Lucier KW, Mayer ML, Chiang NJ, Poweleit N, McGilvray PT, Wilson TS, Mashore M, Hennessy C, Thomson S, Wang B, Potter CS, and Carragher B

Abstract

The emerging field of microcrystal electron diffraction (MicroED) is of great interest to industrial researchers working in the drug discovery and drug development space. The promise of being able to routinely solve high-resolution crystal structures without the need to grow large crystals is very appealing. Despite MicroED's exciting potential, adoption across the pharmaceutical industry has been slow, primarily owing to a lack of access to specialized equipment and expertise. Here we present our experience building a small molecule MicroED service pipeline for members of the pharmaceutical industry. In the past year, we have examined more than fifty small molecule samples submitted by our clients, the majority of which have yielded data suitable for structure solution. We also detail our experience determining small molecule MicroED structures of pharmaceutical interest and offer some insights into the typical experimental outcomes. This experience has led us to conclude that small molecule MicroED adoption will continue to grow within the pharmaceutical industry where it is able to rapidly provide structures inaccessible by other methods., Competing Interests: JB, GS, AC, TG, SD, BR, TN, KL, MMy, NC, NP, PM, TW, MMs, CH, ST, CP, and BC are or have been employed by NanoImaging Services, a commercial supplier of electron microscopy services to the biopharmaceutical and biotechnology industries. BW is employed by the company Biogen. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Bruhn, Scapin, Cheng, Mercado, Waterman, Ganesh, Dallakyan, Read, Nieusma, Lucier, Mayer, Chiang, Poweleit, McGilvray, Wilson, Mashore, Hennessy, Thomson, Wang, Potter and Carragher.)

Published
2021
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39. Cryo-Electron Microscopic Grid Preparation for Time-Resolved Studies using a Novel Robotic System, Spotiton.

Author

Budell WC, Allegri L, Dandey V, Potter CS, and Carragher B

Subjects
Freezing, Humidity, Software, Time Factors, User-Computer Interface, Cryoelectron Microscopy methods, Robotics
Abstract

The capture of short-lived molecular states triggered by the early encounter of two or more interacting particles continues to be an experimental challenge of great interest to the field of cryo-electron microscopy (cryo-EM). A few methodological strategies have been developed that support these "time-resolved" studies, one of which, Spotiton-a novel robotic system-combines the dispensing of picoliter-sized sample droplets with precise temporal and spatial control. The time-resolved Spotiton workflow offers a uniquely efficient approach to interrogate early structural rearrangements from minimal sample volume. Fired from independently controlled piezoelectric dispensers, two samples land and rapidly mix on a nanowire EM grid as it plunges toward the cryogen. Potentially hundreds of grids can be prepared in rapid succession from only a few microliters of a sample. Here, a detailed step-by-step protocol of the operation of the Spotiton system is presented with a focus on troubleshooting specific problems that arise during grid preparation.

Published
2021
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40. Leginon: New features and applications.

Author

Cheng A, Negro C, Bruhn JF, Rice WJ, Dallakyan S, Eng ET, Waterman DG, Potter CS, and Carragher B

Subjects
Microscopy, Electron, Transmission, Software
Abstract

Leginon is a system for automated data acquisition from a transmission electron microscope. Here we provide an updated summary of the overall Leginon architecture and an update of the current state of the package. We also highlight a few recent developments to provide some concrete examples and use cases., (© 2020 The Protein Society.)

Published
2021
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41. Assembly of Building Blocks by Double-End-Anchored Polymers in the Dilute Regime Mediated by Hydrophobic Interactions at Controlled Distances.

Author

Wonder EA, Ewert KK, Liu C, Steffes VM, Kwak J, Qahar V, Majzoub RN, Zhang Z, Carragher B, Potter CS, Li Y, Qiao W, and Safinya CR

Subjects
DNA chemistry, Humans, Hydrophobic and Hydrophilic Interactions, Liposomes chemistry, Microscopy, Confocal, Nanoparticles chemistry, PC-3 Cells, Particle Size, Surface Properties, Tumor Cells, Cultured, Polymers chemistry
Abstract

Hierarchical assembly of building blocks via competing, orthogonal interactions is a hallmark of many of nature's composite materials that do not require highly specific ligand-receptor interactions. To mimic this assembly mechanism requires the development of building blocks capable of tunable interactions. In the present work, we explored the interplay between repulsive (steric and electrostatic) and attractive hydrophobic forces. The designed building blocks allow hydrophobic forces to effectively act at controlled, large distances, to create and tune the assembly of membrane-based building blocks under dilute conditions, and to affect their interactions with cellular membranes via physical cross-bridges. Specifically, we employed double-end-anchored poly(ethylene glycol)s (DEA-PEGs)-hydrophilic PEG tethers with hydrophobic tails on both ends. Using differential-interference-contrast optical microscopy, synchrotron small-angle X-ray scattering (SAXS), and cryogenic electron microscopy, we investigated the ability of DEA-PEGs to mediate assembly in the dilute regime on multiple length scales and on practical time scales. The PEG length, anchor hydrophobicity, and molar fraction of DEA-PEG molecules within a membrane strongly affect the assembly properties. Additional tuning of the intermembrane interactions can be achieved by adding repulsive interactions via PEG-lipids (steric) or cationic lipids to the DEA-PEG-mediated attractions. While the optical and electron microscopy imaging methods provided qualitative evidence of the ability of DEA-PEGs to assemble liposomes, the SAXS measurements and quantitative line-shape analysis in dilute preparations demonstrated that the ensemble average of loosely organized liposomal assemblies maintains DEA-PEG concentration-dependent tethering on defined nanometer length scales. For cationic liposome-DNA nanoparticles (CL-DNA NPs), aggregation induced by DEA-PEGs decreased internalization of NPs by cells, but tuning the DEA-PEG-induced attractions by adding repulsive steric interactions via PEG-lipids limited aggregation and increased NP uptake. Furthermore, confocal microscopy imaging together with colocalization studies with Rab11 and LysoTracker as markers of intracellular pathways showed that modifying CL-DNA NPs with DEA-PEGs alters their interactions with the plasma and endosomal membranes.

Published
2020
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42. Time-resolved cryo-EM using Spotiton.

Author

Dandey VP, Budell WC, Wei H, Bobe D, Maruthi K, Kopylov M, Eng ET, Kahn PA, Hinshaw JE, Kundu N, Nimigean CM, Fan C, Sukomon N, Darst SA, Saecker RM, Chen J, Malone B, Potter CS, and Carragher B

Subjects
Nanowires, Robotics, Specimen Handling methods, Time Factors, Cryoelectron Microscopy methods
Abstract

We present an approach for preparing cryo-electron microscopy (cryo-EM) grids to study short-lived molecular states. Using piezoelectric dispensing, two independent streams of ~50-pl droplets of sample are deposited within 10 ms of each other onto the surface of a nanowire EM grid, and the mixing reaction stops when the grid is vitrified in liquid ethane ~100 ms later. We demonstrate this approach for four biological systems where short-lived states are of high interest.

Published
2020
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43. Keratinocyte-specific deletion of SHARPIN induces atopic dermatitis-like inflammation in mice.

Author

Sundberg JP, Pratt CH, Goodwin LP, Silva KA, Kennedy VE, Potter CS, Dunham A, Sundberg BA, and HogenEsch H

Subjects
Animals, Apoptosis genetics, Arthritis genetics, Arthritis pathology, Dermatitis, Atopic pathology, Disease Models, Animal, Gene Expression Regulation genetics, Humans, Immunoglobulin E genetics, Inflammation pathology, Integrases genetics, Interleukin-18 genetics, Keratinocytes metabolism, Keratinocytes pathology, Mice, NF-kappa B genetics, Phenotype, Signal Transduction, Dermatitis, Atopic genetics, Inflammation genetics, Keratin-14 genetics, Nerve Tissue Proteins genetics, S100 Calcium-Binding Protein A4 genetics
Abstract

Spontaneous mutations in the SHANK-associated RH domain interacting protein (Sharpin) resulted in a severe autoinflammatory type of chronic proliferative dermatitis, inflammation in other organs, and lymphoid organ defects. To determine whether cell-type restricted loss of Sharpin causes similar lesions, a conditional null mutant was created. Ubiquitously expressing cre-recombinase recapitulated the phenotype seen in spontaneous mutant mice. Limiting expression to keratinocytes (using a Krt14-cre) induced a chronic eosinophilic dermatitis, but no inflammation in other organs or lymphoid organ defects. The dermatitis was associated with a markedly increased concentration of serum IgE and IL18. Crosses with S100a4-cre resulted in milder skin lesions and moderate to severe arthritis. This conditional null mutant will enable more detailed studies on the role of SHARPIN in regulating NFkB and inflammation, while the Krt14-Sharpin-/- provides a new model to study atopic dermatitis., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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44. Cryo-EM structure of arabinosyltransferase EmbB from Mycobacterium smegmatis.

Author

Tan YZ, Rodrigues J, Keener JE, Zheng RB, Brunton R, Kloss B, Giacometti SI, Rosário AL, Zhang L, Niederweis M, Clarke OB, Lowary TL, Marty MT, Archer M, Potter CS, Carragher B, and Mancia F

Subjects
Antitubercular Agents pharmacology, Catalytic Domain, Cryoelectron Microscopy, Drug Resistance, Bacterial, Ethambutol pharmacology, Lipids chemistry, Mutation, Mycobacterium tuberculosis enzymology, Polysaccharides chemistry, Protein Binding, Mycobacterium smegmatis enzymology, Pentosyltransferases chemistry, Pentosyltransferases ultrastructure
Abstract

Arabinosyltransferase B (EmbB) belongs to a family of membrane-bound glycosyltransferases that build the lipidated polysaccharides of the mycobacterial cell envelope, and are targets of anti-tuberculosis drug ethambutol. We present the 3.3 Å resolution single-particle cryo-electron microscopy structure of Mycobacterium smegmatis EmbB, providing insights on substrate binding and reaction mechanism. Mutations that confer ethambutol resistance map mostly around the putative active site, suggesting this to be the location of drug binding.

Published
2020
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45. Cryo-EM Structures and Regulation of Arabinofuranosyltransferase AftD from Mycobacteria.

Author

Tan YZ, Zhang L, Rodrigues J, Zheng RB, Giacometti SI, Rosário AL, Kloss B, Dandey VP, Wei H, Brunton R, Raczkowski AM, Athayde D, Catalão MJ, Pimentel M, Clarke OB, Lowary TL, Archer M, Niederweis M, Potter CS, Carragher B, and Mancia F

Subjects
Acyl Carrier Protein genetics, Bacterial Proteins genetics, Catalytic Domain, Cell Wall metabolism, Galactans metabolism, Glycosyltransferases genetics, Lipopolysaccharides metabolism, Mutation, Mycobacterium smegmatis genetics, Mycobacterium smegmatis growth & development, Phylogeny, Protein Conformation, Substrate Specificity, Acyl Carrier Protein metabolism, Bacterial Proteins chemistry, Bacterial Proteins metabolism, Cell Membrane metabolism, Cryoelectron Microscopy methods, Glycosyltransferases metabolism, Mycobacterium smegmatis enzymology
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., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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46. Family-wide Structural and Biophysical Analysis of Binding Interactions among Non-clustered δ-Protocadherins.

Author

Harrison OJ, Brasch J, Katsamba PS, Ahlsen G, Noble AJ, Dan H, Sampogna RV, Potter CS, Carragher B, Honig B, and Shapiro L

Subjects
Animals, Cadherins genetics, Conserved Sequence, Female, HEK293 Cells, Humans, Kinetics, Liposomes, Models, Molecular, Mutation genetics, Protein Binding, Protein Domains, Protein Multimerization, Solutions, Structure-Activity Relationship, Surface Plasmon Resonance, Xenopus, Biophysical Phenomena, Cadherins chemistry, Cadherins metabolism
Abstract

Non-clustered δ1- and δ2-protocadherins, close relatives of clustered protocadherins, function in cell adhesion and motility and play essential roles in neural patterning. To understand the molecular interactions underlying these functions, we used solution biophysics to characterize binding of δ1- and δ2-protocadherins, determined crystal structures of ectodomain complexes from each family, and assessed ectodomain assembly in reconstituted intermembrane junctions by cryoelectron tomography (cryo-ET). Homophilic trans (cell-cell) interactions were preferred for all δ-protocadherins, with additional weaker heterophilic interactions observed exclusively within each subfamily. As expected, δ1- and δ2-protocadherin trans dimers formed through antiparallel EC1-EC4 interfaces, like clustered protocadherins. However, no ectodomain-mediated cis (same-cell) interactions were detectable in solution; consistent with this, cryo-ET of reconstituted junctions revealed dense assemblies lacking the characteristic order observed for clustered protocadherins. Our results define non-clustered protocadherin binding properties and their structural basis, providing a foundation for interpreting their functional roles in neural patterning., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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47. PEGylation of Paclitaxel-Loaded Cationic Liposomes Drives Steric Stabilization of Bicelles and Vesicles thereby Enhancing Delivery and Cytotoxicity to Human Cancer Cells.

Author

Steffes VM, Zhang Z, MacDonald S, Crowe J, Ewert KK, Carragher B, Potter CS, and Safinya CR

Subjects
Delayed-Action Preparations chemistry, Delayed-Action Preparations pharmacokinetics, Delayed-Action Preparations pharmacology, Humans, Liposomes, PC-3 Cells, Paclitaxel chemistry, Paclitaxel pharmacokinetics, Paclitaxel pharmacology, Neoplasms drug therapy, Neoplasms metabolism, Neoplasms pathology, Polyethylene Glycols chemistry
Abstract

Poly(ethylene glycol) (PEG) is a polymer used widely in drug delivery to create "stealth" nanoparticles (NPs); PEG coatings suppress NP detection and clearance by the immune system and beneficially increase NP circulation time in vivo. However, NP PEGylation typically obstructs cell attachment and uptake in vitro compared to the uncoated equivalent. Here, we report on a cationic liposome (CL) NP system loaded with the hydrophobic cancer drug paclitaxel (PTX) in which PEGylation (i.e., PEG-CL PTX NPs) unexpectedly enhances, rather than diminishes, delivery efficacy and cytotoxicity to human cancer cells. This highly unexpected enhancement occurs even when the PEG-chains coating the NP are in the transition regime between the mushroom and brush conformations. Cryogenic transmission electron microscopy (TEM) of PEG-CL PTX NPs shows that PEG causes the proliferation of a mixture of sterically stabilized nanometer-scale vesicles and anisotropic micelles (e.g., bicelles). Remarkably, the onset of bicelles at sub-monolayer concentrations of the PEG coat has to our knowledge not been previously reported; it was previously thought that PEG-lipid in this composition regime was incorporated into vesicles but did not alter their shape. Confocal microscopy and flow cytometry reveal significantly greater PTX cell uptake from stabilized PEG-CL PTX NPs (vesicles and bicelles) in contrast to bare CL PTX NPs, which can aggregate in cell medium. This underscores the ability of steric stabilization to facilitate NP entry into cells via distinct size-dependent endocytic pathways, some of which cannot transport large NP aggregates into cells. This study highlights the value of understanding how PEGylation alters NP shape and structure, and thus NP efficacy, to design next-generation stealth drug carriers that integrate active cell-targeting strategies into NPs for in vivo delivery.

Published
2020
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48. FACT caught in the act of manipulating the nucleosome.

Author

Liu Y, Zhou K, Zhang N, Wei H, Tan YZ, Zhang Z, Carragher B, Potter CS, D'Arcy S, and Luger K

Subjects
Cryoelectron Microscopy, DNA chemistry, DNA metabolism, Histones chemistry, Histones metabolism, Humans, Models, Molecular, Protein Structure, Quaternary, Protein Structure, Tertiary, Cell Cycle Proteins chemistry, Cell Cycle Proteins metabolism, DNA-Binding Proteins chemistry, DNA-Binding Proteins metabolism, High Mobility Group Proteins chemistry, High Mobility Group Proteins metabolism, Nucleosomes chemistry, Nucleosomes metabolism, Transcription Factors chemistry, Transcription Factors metabolism, Transcriptional Elongation Factors chemistry, Transcriptional Elongation Factors metabolism
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 1 ) (consisting of subunits SPT16 and SSRP1) promotes both disassembly and reassembly of nucleosomes during gene transcription, DNA replication and DNA repair 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. 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.

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

Author

Kim J, Tan YZ, Wicht KJ, Erramilli SK, Dhingra SK, Okombo J, Vendome J, Hagenah LM, Giacometti SI, Warren AL, Nosol K, Roepe PD, Potter CS, Carragher B, Kossiakoff AA, Quick M, Fidock DA, and Mancia F

Subjects
Chloroquine metabolism, Chloroquine pharmacology, Drug Resistance genetics, Hydrogen-Ion Concentration, Malaria, Falciparum drug therapy, Malaria, Falciparum parasitology, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Models, Molecular, Mutation, Plasmodium falciparum genetics, Plasmodium falciparum ultrastructure, Protozoan Proteins genetics, Protozoan Proteins metabolism, Quinolines metabolism, Quinolines pharmacology, Cryoelectron Microscopy, Drug Resistance drug effects, Membrane Transport Proteins chemistry, Membrane Transport Proteins ultrastructure, Plasmodium falciparum chemistry, Protozoan Proteins chemistry, Protozoan Proteins ultrastructure
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 1 . Clinical resistance to the chemically related current first-line combination drug piperaquine (PPQ) has now emerged regionally, reducing its efficacy 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 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 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 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.

Published
2019
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50. Antibody Lineages with Vaccine-Induced Antigen-Binding Hotspots Develop Broad HIV Neutralization.

Author

Kong R, Duan H, Sheng Z, Xu K, Acharya P, Chen X, Cheng C, Dingens AS, Gorman J, Sastry M, Shen CH, Zhang B, Zhou T, Chuang GY, Chao CW, Gu Y, Jafari AJ, Louder MK, O'Dell S, Rowshan AP, Viox EG, Wang Y, Choi CW, Corcoran MM, Corrigan AR, Dandey VP, Eng ET, Geng H, Foulds KE, Guo Y, Kwon YD, Lin B, Liu K, Mason RD, Nason MC, Ohr TY, Ou L, Rawi R, Sarfo EK, Schön A, Todd JP, Wang S, Wei H, Wu W, Mullikin JC, Bailer RT, Doria-Rose NA, Karlsson Hedestam GB, Scorpio DG, Overbaugh J, Bloom JD, Carragher B, Potter CS, Shapiro L, Kwong PD, and Mascola JR

Subjects
Amino Acid Sequence, Animals, Antibodies, Neutralizing chemistry, Antibodies, Neutralizing classification, B-Lymphocytes cytology, B-Lymphocytes metabolism, Crystallography, X-Ray, Female, HEK293 Cells, HIV Antibodies chemistry, HIV Antibodies classification, HIV-1 metabolism, Humans, Macaca mulatta, Male, Peptides chemistry, Protein Structure, Tertiary, env Gene Products, Human Immunodeficiency Virus chemistry, env Gene Products, Human Immunodeficiency Virus immunology, env Gene Products, Human Immunodeficiency Virus metabolism, AIDS Vaccines immunology, Antibodies, Neutralizing immunology, HIV Antibodies immunology, Peptides immunology
Abstract

The vaccine-mediated elicitation of antibodies (Abs) capable of neutralizing diverse HIV-1 strains has been a long-standing goal. To understand how broadly neutralizing antibodies (bNAbs) can be elicited, we identified, characterized, and tracked five neutralizing Ab lineages targeting the HIV-1-fusion peptide (FP) in vaccinated macaques over time. Genetic and structural analyses revealed two of these lineages to belong to a reproducible class capable of neutralizing up to 59% of 208 diverse viral strains. B cell analysis indicated each of the five lineages to have been initiated and expanded by FP-carrier priming, with envelope (Env)-trimer boosts inducing cross-reactive neutralization. These Abs had binding-energy hotspots focused on FP, whereas several FP-directed Abs induced by immunization with Env trimer-only were less FP-focused and less broadly neutralizing. Priming with a conserved subregion, such as FP, can thus induce Abs with binding-energy hotspots coincident with the target subregion and capable of broad neutralization., (Published by Elsevier Inc.)

Published
2019
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