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231 results on '"Neal, Maxwell"'

1. Mixotrophic growth of a ubiquitous marine diatom.

Author

Kumar, Manish, Tibocha-Bonilla, Juan, Füssy, Zoltán, Lieng, Chloe, Schwenck, Sarah, Levesque, Alice, Al-Bassam, Mahmoud, Passi, Anurag, Neal, Maxwell, Zuniga, Cristal, Kaiyom, Farrah, Espinoza, Josh, Lim, Hyungyu, Polson, Shawn, Allen, Lisa, and Zengler, Karsten

Subjects
Diatoms, Carbon Cycle, Oceans and Seas, Seawater, Models, Biological, Transcriptome, Metabolic Networks and Pathways
Abstract

Diatoms are major players in the global carbon cycle, and their metabolism is affected by ocean conditions. Understanding the impact of changing inorganic nutrients in the oceans on diatoms is crucial, given the changes in global carbon dioxide levels. Here, we present a genome-scale metabolic model (iMK1961) for Cylindrotheca closterium, an in silico resource to understand uncharacterized metabolic functions in this ubiquitous diatom. iMK1961 represents the largest diatom metabolic model to date, comprising 1961 open reading frames and 6718 reactions. With iMK1961, we identified the metabolic response signature to cope with drastic changes in growth conditions. Comparing model predictions with Tara Oceans transcriptomics data unraveled C. closteriums metabolism in situ. Unexpectedly, the diatom only grows photoautotrophically in 21% of the sunlit ocean samples, while the majority of the samples indicate a mixotrophic (71%) or, in some cases, even a heterotrophic (8%) lifestyle in the light. Our findings highlight C. closteriums metabolic flexibility and its potential role in global carbon cycling.

Published
2024

2. Automated, image-based quantification of peroxisome characteristics with perox-per-cell.

Author

Neal, Maxwell, Shukla, Nandini, Mast, Fred, Farré, Jean-Claude, Pacio, Therese, Raney-Plourde, Katelyn, Prasad, Sumedh, Subramani, Suresh, and Aitchison, John

Abstract

SUMMARY: perox-per-cell automates cumbersome, image-based data collection tasks often encountered in peroxisome research. The software processes microscopy images to quantify peroxisome features in yeast cells. It uses off-the-shelf image processing tools to automatically segment cells and peroxisomes and then outputs quantitative metrics including peroxisome counts per cell and spatial areas. In validation tests, we found that perox-per-cell output agrees well with manually quantified peroxisomal counts and cell instances, thereby enabling high-throughput quantification of peroxisomal characteristics. AVAILABILITY AND IMPLEMENTATION: The software is coded in Python. Compiled executables and source code are available at https://github.com/AitchisonLab/perox-per-cell. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.

Published
2024

3. Biocontrol in built environments to reduce pathogen exposure and infection risk.

Author

Gottel, Neil, Hill, Megan, Neal, Maxwell, Zengler, Karsten, Gilbert, Jack, and Allard, Sarah

Subjects
AMR, antibiotic resistance, bacillus, biocontrol, built environment, indoor microbiome, metabolic modelling, probiotic cleaning, Humans, Microbiota, Bacteria, Bacillus, Anti-Bacterial Agents, Built Environment
Abstract

The microbiome of the built environment comprises bacterial, archaeal, fungal, and viral communities associated with human-made structures. Even though most of these microbes are benign, antibiotic-resistant pathogens can colonize and emerge indoors, creating infection risk through surface transmission or inhalation. Several studies have catalogued the microbial composition and ecology in different built environment types. These have informed in vitro studies that seek to replicate the physicochemical features that promote pathogenic survival and transmission, ultimately facilitating the development and validation of intervention techniques used to reduce pathogen accumulation. Such interventions include using Bacillus-based cleaning products on surfaces or integrating bacilli into printable materials. Though this work is in its infancy, early research suggests the potential to use microbial biocontrol to reduce hospital- and home-acquired multidrug-resistant infections. Although these techniques hold promise, there is an urgent need to better understand the microbial ecology of built environments and to determine how these biocontrol solutions alter species interactions. This review covers our current understanding of microbial ecology of the built environment and proposes strategies to translate that knowledge into effective biocontrol of antibiotic-resistant pathogens.

Published
2024

4. Genome-scale metabolic modeling of the human gut bacterium Bacteroides fragilis strain 638R.

Author

Neal, Maxwell, Thiruppathy, Deepan, and Zengler, Karsten

Subjects
Humans, Bacteroides fragilis, Carrier Proteins
Abstract

Bacteroides fragilis is a universal member of the dominant commensal gut phylum Bacteroidetes. Its fermentation products and abundance have been linked to obesity, inflammatory bowel disease, and other disorders through its effects on host metabolic regulation and the immune system. As of yet, there has been no curated systems-level characterization of B. fragilis metabolism that provides a comprehensive analysis of the link between human diet and B. fragilis metabolic products. To address this, we developed a genome-scale metabolic model of B. fragilis strain 638R. The model iMN674 contains 1,634 reactions, 1,362 metabolites, three compartments, and reflects the strains ability to utilize 142 metabolites. Predictions made with this model include its growth rate and efficiency on these substrates, the amounts of each fermentation product it produces under different conditions, and gene essentiality for each biomass component. The model highlights and resolves gaps in knowledge of B. fragilis carbohydrate metabolism and its corresponding transport proteins. This high quality model provides the basis for rational prediction of B. fragilis metabolic interactions with its environment and its host.

Published
2023

5. synDNA—a Synthetic DNA Spike-in Method for Absolute Quantification of Shotgun Metagenomic Sequencing

Author

Zaramela, Livia S, Tjuanta, Megan, Moyne, Oriane, Neal, Maxwell, and Zengler, Karsten

Subjects
Genetics, Human Genome, Metagenome, Microbiota, Bacteria, Plasmids, DNA, absolute abundance, metagenomics, microbial communities
Abstract

Microbiome studies have the common goal of determining which microbial taxa are present, respond to specific conditions, or promote phenotypic changes in the host. Most of these studies rely on relative abundance measurements to drive conclusions. Inherent limitations of relative values are the inability to determine whether an individual taxon is more or less abundant and the magnitude of this change between the two samples. These limitations can be overcome by using absolute abundance quantifications, which can allow for a more complete understanding of community dynamics by measuring variations in total microbial loads. Obtaining absolute abundance measurements is still technically challenging. Here, we developed synthetic DNA (synDNA) spike-ins that enable precise and cost-effective absolute quantification of microbiome data by adding defined amounts of synDNAs to the samples. We designed 10 synDNAs with the following features: 2,000-bp length, variable GC content (26, 36, 46, 56, or 66% GC), and negligible identity to sequences found in the NCBI database. Dilution pools were generated by mixing the 10 synDNAs at different concentrations. Shotgun metagenomic sequencing showed that the pools of synDNAs with different percentages of GC efficiently reproduced the serial dilution, showing high correlation (r = 0.96; R2 ≥ 0.94) and significance (P

Published
2022

6. Acetate reprograms gut microbiota during alcohol consumption

Author

Martino, Cameron, Zaramela, Livia S, Gao, Bei, Embree, Mallory, Tarasova, Janna, Parker, Seth J, Wang, Yanhan, Chu, Huikuan, Chen, Peng, Lee, Kuei-Chuan, Galzerani, Daniela Domingos, Gengatharan, Jivani M, Lekbua, Asama, Neal, Maxwell, Knight, Rob, Tsukamoto, Hidekazu, Metallo, Christian M, Schnabl, Bernd, and Zengler, Karsten

Subjects
Medical Biochemistry and Metabolomics, Biological Sciences, Biomedical and Clinical Sciences, Liver Disease, Digestive Diseases, Nutrition, Microbiome, Substance Misuse, Alcoholism, Alcohol Use and Health, Chronic Liver Disease and Cirrhosis, Oral and gastrointestinal, Good Health and Well Being, Acetates, Alcohol Drinking, Animals, Ethanol, Gastrointestinal Microbiome, Liver Diseases, Mice, Mice, Inbred C57BL
Abstract

Liver damage due to chronic alcohol use is among the most prevalent liver diseases. Alcohol consumption frequency is a strong factor of microbiota variance. Here we use isotope labeled [1-13C] ethanol, metagenomics, and metatranscriptomics in ethanol-feeding and intragastric mouse models to investigate the metabolic impacts of alcohol consumption on the gut microbiota. First, we show that although stable isotope labeled [1-13C] ethanol contributes to fatty acid pools in the liver, plasma, and cecum contents of mice, there is no evidence of ethanol metabolism by gut microbiota ex vivo under anaerobic conditions. Next, we observe through metatranscriptomics that the gut microbiota responds to ethanol-feeding by activating acetate dissimilation, not by metabolizing ethanol directly. We demonstrate that blood acetate concentrations are elevated during ethanol consumption. Finally, by increasing systemic acetate levels with glyceryl triacetate supplementation, we do not observe any impact on liver disease, but do induce similar gut microbiota alterations as chronic ethanol-feeding in mice. Our results show that ethanol is not directly metabolized by the gut microbiota, and changes in the gut microbiota linked to ethanol are a side effect of elevated acetate levels. De-trending for these acetate effects may be critical for understanding gut microbiota changes that cause alcohol-related liver disease.

Published
2022

8. CD4-mediated immunity shapes neutrophil-driven tuberculous pathology

Author

Gern, Benjamin H, primary, Klas, Josepha M, additional, Foster, Kimberly A, additional, Cohen, Sara B, additional, Plumlee, Courtney R, additional, Duffy, Fergal J, additional, Neal, Maxwell L, additional, Halima, Mehnaz, additional, Gustin, Andrew T, additional, Diercks, Alan H, additional, Aderem, Alan, additional, Gale, Michael, additional, Aitchison, John D, additional, Gerner, Michael Y, additional, and Urdahl, Kevin B, additional

Published
2024
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10. Automated, image-based quantification of peroxisome characteristics with perox-per-cell.

Author

Neal, Maxwell L, Shukla, Nandini, Mast, Fred D, Farré, Jean-Claude, Pacio, Therese M, Raney-Plourde, Katelyn E, Prasad, Sumedh, Subramani, Suresh, and Aitchison, John D

Subjects
*IMAGE processing software, *SOURCE code, *IMAGE processing, *PEROXISOMES, *ACQUISITION of data
Abstract

Summary perox-per-cell automates cumbersome, image-based data collection tasks often encountered in peroxisome research. The software processes microscopy images to quantify peroxisome features in yeast cells. It uses off-the-shelf image processing tools to automatically segment cells and peroxisomes and then outputs quantitative metrics including peroxisome counts per cell and spatial areas. In validation tests, we found that perox-per-cell output agrees well with manually quantified peroxisomal counts and cell instances, thereby enabling high-throughput quantification of peroxisomal characteristics. Availability and implementation The software is coded in Python. Compiled executables and source code are available at https://github.com/AitchisonLab/perox-per-cell. [ABSTRACT FROM AUTHOR]

Published
2024
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13. OMEX metadata specification (version 1.2)

Author

Gennari John H., König Matthias, Misirli Goksel, Neal Maxwell L., Nickerson David P., and Waltemath Dagmar

Subjects
biosimulation modeling, combine standards, metadata, semantics, Biotechnology, TP248.13-248.65
Abstract

A standardized approach to annotating computational biomedical models and their associated files can facilitate model reuse and reproducibility among research groups, enhance search and retrieval of models and data, and enable semantic comparisons between models. Motivated by these potential benefits and guided by consensus across the COmputational Modeling in BIology NEtwork (COMBINE) community, we have developed a specification for encoding annotations in Open Modeling and EXchange (OMEX)-formatted archives. This document details version 1.2 of the specification, which builds on version 1.0 published last year in this journal. In particular, this version includes a set of initial model-level annotations (whereas v 1.0 described exclusively annotations at a smaller scale). Additionally, this version uses best practices for namespaces, and introduces omex-library.org as a common root for all annotations. Distributing modeling projects within an OMEX archive is a best practice established by COMBINE, and the OMEX metadata specification presented here provides a harmonized, community-driven approach for annotating a variety of standardized model representations. This specification acts as a technical guideline for developing software tools that can support this standard, and thereby encourages broad advances in model reuse, discovery, and semantic analyses.

Published
2021
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14. Multiple receptor tyrosine kinases regulate dengue infection of hepatocytes.

Author

Bourgeois, Natasha M., Ling Wei, Ho, Nhi N. T., Neal, Maxwell L., Seferos, Denali, Tongogara, Tinotenda, Mast, Fred D., Aitchison, John D., and Kaushansky, Alexis

Subjects
FIBROBLAST growth factor 2, FIBROBLAST growth factor receptors, EPHRIN receptors, KINASES, DENGUE, FENITROTHION
Abstract

Introduction: Dengue is an arboviral disease causing severe illness in over 500,000 people each year. Currently, there is no way to constrain dengue in the clinic. Host kinase regulators of dengue virus (DENV) infection have the potential to be disrupted by existing therapeutics to prevent infection and/or disease progression. Methods: To evaluate kinase regulation of DENV infection, we performed kinase regression (KiR), a machine learning approach that predicts kinase regulators of infection using existing drug-target information and a small drug screen. We infected hepatocytes with DENV in vitro in the presence of a panel of 38 kinase inhibitors then quantified the effect of each inhibitor on infection rate. We employed elastic net regularization on these data to obtain predictions of which of 291 kinases are regulating DENV infection. Results: Thirty-six kinases were predicted to have a functional role. Intriguingly, seven of the predicted kinases – EPH receptor A4 (EPHA4), EPH receptor B3 (EPHB3), EPH receptor B4 (EPHB4), erb-b2 receptor tyrosine kinase 2 (ERBB2), fibroblast growth factor receptor 2 (FGFR2), Insulin like growth factor 1 receptor (IGF1R), and ret proto-oncogene (RET) – belong to the receptor tyrosine kinase (RTK) family, which are already therapeutic targets in the clinic. We demonstrate that predicted RTKs are expressed at higher levels in DENV infected cells. Knockdown of EPHB4, ERBB2, FGFR2, or IGF1R reduces DENV infection in hepatocytes. Finally, we observe differential temporal induction of ERBB2 and IGF1R following DENV infection, highlighting their unique roles in regulating DENV. Discussion: Collectively, our findings underscore the significance of multiple RTKs in DENV infection and advocate further exploration of RTK-oriented interventions against dengue. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Open modeling and exchange (OMEX) metadata specification version 1.0

Author

Neal Maxwell L., Gennari John H., Waltemath Dagmar, Nickerson David P., and König Matthias

Subjects
data integration, metadata, semantics, simulation, Biotechnology, TP248.13-248.65
Abstract

A standardized approach to annotating computational biomedical models and their associated files can facilitate model reuse and reproducibility among research groups, enhance search and retrieval of models and data, and enable semantic comparisons between models. Motivated by these potential benefits and guided by consensus across the COmputational Modeling in BIology NEtwork (COMBINE) community, we have developed a specification for encoding annotations in Open Modeling and EXchange (OMEX)-formatted archives. Distributing modeling projects within these archives is a best practice established by COMBINE, and the OMEX metadata specification presented here provides a harmonized, community-driven approach for annotating a variety of standardized model and data representation formats within an archive. The specification primarily includes technical guidelines for encoding archive metadata, so that software tools can more easily utilize and exchange it, thereby spurring broad advancements in model reuse, discovery, and semantic analyses.

Published
2020
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20. Distinct immune responses associated with vaccination status and protection outcomes after malaria challenge

Author

Oyong, Damian A., primary, Duffy, Fergal J., additional, Neal, Maxwell L., additional, Du, Ying, additional, Carnes, Jason, additional, Schwedhelm, Katharine V., additional, Hertoghs, Nina, additional, Jun, Seong-Hwan, additional, Miller, Helen, additional, Aitchison, John D., additional, De Rosa, Stephen C., additional, Newell, Evan W., additional, McElrath, M Juliana, additional, McDermott, Suzanne M., additional, and Stuart, Kenneth D., additional

Published
2023
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21. Data from Response Classification Based on a Minimal Model of Glioblastoma Growth Is Prognostic for Clinical Outcomes and Distinguishes Progression from Pseudoprogression

Author

Neal, Maxwell Lewis, primary, Trister, Andrew D., primary, Ahn, Sunyoung, primary, Baldock, Anne, primary, Bridge, Carly A., primary, Guyman, Laura, primary, Lange, Jordan, primary, Sodt, Rita, primary, Cloke, Tyler, primary, Lai, Albert, primary, Cloughesy, Timothy F., primary, Mrugala, Maciej M., primary, Rockhill, Jason K., primary, Rockne, Russell C., primary, and Swanson, Kristin R., primary

Published
2023
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22. Supplementary Figure 1 from Response Classification Based on a Minimal Model of Glioblastoma Growth Is Prognostic for Clinical Outcomes and Distinguishes Progression from Pseudoprogression

Author

Neal, Maxwell Lewis, primary, Trister, Andrew D., primary, Ahn, Sunyoung, primary, Baldock, Anne, primary, Bridge, Carly A., primary, Guyman, Laura, primary, Lange, Jordan, primary, Sodt, Rita, primary, Cloke, Tyler, primary, Lai, Albert, primary, Cloughesy, Timothy F., primary, Mrugala, Maciej M., primary, Rockhill, Jason K., primary, Rockne, Russell C., primary, and Swanson, Kristin R., primary

Published
2023
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24. Nuclear pore complexes mediate subtelomeric gene silencing by regulating PCNA levels on chromatin.

Author

Kumar, Sanjeev, Neal, Maxwell L., Song Li, Navare, Arti T., Van Eeuwen, Trevor, Wozniak, Richard W., Mast, Fred D., Rout, Michael P., and Aitchison, John D.

Abstract

The nuclear pore complex (NPC) physically interacts with chromatin and regulates gene expression. The Saccharomyces cerevisiae inner ring nucleoporin Nup170 has been implicated in chromatin organization and the maintenance of gene silencing in subtelomeric regions. To gain insight into how Nup170 regulates this process, we used protein–protein interactions, genetic interactions, and transcriptome correlation analyses to identify the Ctf18-RFC complex, an alternative proliferating cell nuclear antigen (PCNA) loader, as a facilitator of the gene regulatory functions of Nup170. The Ctf18-RFC complex is recruited to a subpopulation of NPCs that lack the nuclear basket proteins Mlp1 and Mlp2. In the absence of Nup170, PCNA levels on DNA are reduced, resulting in the loss of silencing of subtelomeric genes. Increasing PCNA levels on DNA by removing Elg1, which is required for PCNA unloading, rescues subtelomeric silencing defects in nup170Δ. The NPC, therefore, mediates subtelomeric gene silencing by regulating PCNA levels on DNA. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Longitudinal immune profiling after radiation-attenuated sporozoite vaccination reveals coordinated immune processes correlated with malaria protection

Author

Duffy, Fergal J., primary, Hertoghs, Nina, additional, Du, Ying, additional, Neal, Maxwell L., additional, Oyong, Damian, additional, McDermott, Suzanne, additional, Minkah, Nana, additional, Carnes, Jason, additional, Schwedhelm, Katharine V., additional, McElrath, M. Juliana, additional, De Rosa, Stephen C., additional, Newell, Evan, additional, Aitchison, John D., additional, and Stuart, Ken, additional

Published
2022
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29. Distinct immune responses associated with vaccination status and protection outcomes after malaria challenge

Author

Oyong, Damian A, primary, Duffy, Fergal J, additional, Neal, Maxwell L, additional, Du, Ying, additional, Carnes, Jason, additional, Schwedhelm, Katharine V, additional, Hertoghs, Nina, additional, Jun, Seong-Hwan, additional, Miller, Helen, additional, Aitchison, John D, additional, De Rosa, Stephen C, additional, Newell, Evan W, additional, Juliana McElrath, M, additional, McDermott, Suzanne M, additional, and Stuart, Kenneth D, additional

Published
2022
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31. Longitudinal immune profiling after radiation-attenuated sporozoite vaccination reveals coordinated immune processes correlated with malaria protection

Author

Duffy, Fergal J, primary, Hertoghs, Nina, additional, Du, Ying, additional, Neal, Maxwell L., additional, Oyong, Damian, additional, McDermott, Suzanne, additional, Minkah, Nana, additional, Carnes, Jason, additional, Schwedhelm, Katharine V, additional, McElrath, M Juliana, additional, Rosa, Stephen C De, additional, Newell, Evan, additional, Aitchison, John D., additional, and Stuart, Ken, additional

Published
2022
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35. Modular, Semantics-Based Composition of Biosimulation Models

Author

Neal, Maxwell Lewis

Abstract

Biosimulation models are valuable, versatile tools used for hypothesis generation and testing, codification of biological theory, education, and patient-specific modeling. Driven by recent advances in computational power and the accumulation of systems-level experimental data, modelers today are creating models with an unprecedented level of complexity. These researchers need tools that manage this complexity and scale across biological levels of organization and physical domain. Historically, many industries have addressed the issue of complexity by adopting a modular product design. In order to apply this approach to the field of biosimulation, existing models must be cast as interoperable components. However, modelers today use a variety of simulation languages so that interoperability is the exception rather than the rule. For my dissertation research I have worked on the challenges of modularity and interoperability within biosimulation. I helped develop a modular, multi-scale, multi-domain modeling approach called SemSim that provides broad model interoperability. The SemSim approach includes a declarative model description format that can capture the computational and semantic information in existing models, thereby converting them into interoperable, reusable components. Because they interoperate at the semantic level, SemSim models offer opportunities to automate common composition and decomposition tasks beyond currently available methods. For my dissertation work I created and tested a software tool called SemGen that helps automate the modular composition and decomposition of SemSim models. With this tool, users can (1) convert existing models into the SemSim format and annotate them with semantic data, (2) automatically decompose SemSim models into interoperable sub-models, (3) semi-automatically merge SemSim models into larger systems, and (4) encode SemSim models in an executable simulation format. As a proof-of-concept demonstration of modular modeling, I used SemGen to perform a set of model composition and decomposition tasks using models of hemodynamics, neural signaling, molecular diffusion, and chemical pathway kinetics. This demonstration establishes SemGen's capabilities for automating the modular composition and decomposition of biosimulation models across physical scales and physical domains. Thus, SemGen has the potential to advance the entire field of biosimulation by spurring the development of complex models for biological research, drug target identification, and patient-specific modeling. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published
2010

39. Systems analysis of immune responses to attenuated P. falciparum malaria sporozoite vaccination reveals excessive inflammatory signatures correlating with impaired immunity

Author

Du, Ying, primary, Hertoghs, Nina, additional, Duffy, Fergal J., additional, Carnes, Jason, additional, McDermott, Suzanne M., additional, Neal, Maxwell L., additional, Schwedhelm, Katharine V., additional, McElrath, M. Juliana, additional, De Rosa, Stephen C., additional, Aitchison, John D., additional, and Stuart, Kenneth D., additional

Published
2022
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42. Systems analysis of immune responses to attenuated P. falciparum malaria sporozoite vaccination reveals excessive inflammatory signatures correlating with impaired immunity

Author

Du, Ying, primary, Hertoghs, Nina, additional, Duffy, Fergal J., additional, Carnes, Jason, additional, McDermott, Suzanne M., additional, Neal, Maxwell L., additional, Schwedhelm, Katharine V., additional, McElrath, M. Juliana, additional, De Rosa, Stephen C., additional, Aitchison, John D., additional, and Stuart, Kenneth D., additional

Published
2021
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49. Defining the proteolytic landscape during enterovirus infection

Author

Saeed, Mohsan, primary, Kapell, Sebastian, additional, Hertz, Nicholas T., additional, Wu, Xianfang, additional, Bell, Kierstin, additional, Ashbrook, Alison W., additional, Mark, Milica Tesic, additional, Zebroski, Henry A., additional, Neal, Maxwell L., additional, Flodström-Tullberg, Malin, additional, MacDonald, Margaret R., additional, Aitchison, John D., additional, Molina, Henrik, additional, and Rice, Charles M., additional

Published
2020
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