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1. Recommendations for Uniform Variant Calling of SARS-CoV-2 Genome Sequence across Bioinformatic Workflows

Author

Ryan Connor, Migun Shakya, David A. Yarmosh, Wolfgang Maier, Ross Martin, Rebecca Bradford, J. Rodney Brister, Patrick S. G. Chain, Courtney A. Copeland, Julia di Iulio, Bin Hu, Philip Ebert, Jonathan Gunti, Yumi Jin, Kenneth S. Katz, Andrey Kochergin, Tré LaRosa, Jiani Li, Po-E Li, Chien-Chi Lo, Sujatha Rashid, Evguenia S. Maiorova, Chunlin Xiao, Vadim Zalunin, Lisa Purcell, and Kim D. Pruitt

Subjects
SARS-CoV-2, variant calling, Microbiology, QR1-502
Abstract

Genomic sequencing of clinical samples to identify emerging variants of SARS-CoV-2 has been a key public health tool for curbing the spread of the virus. As a result, an unprecedented number of SARS-CoV-2 genomes were sequenced during the COVID-19 pandemic, which allowed for rapid identification of genetic variants, enabling the timely design and testing of therapies and deployment of new vaccine formulations to combat the new variants. However, despite the technological advances of deep sequencing, the analysis of the raw sequence data generated globally is neither standardized nor consistent, leading to vastly disparate sequences that may impact identification of variants. Here, we show that for both Illumina and Oxford Nanopore sequencing platforms, downstream bioinformatic protocols used by industry, government, and academic groups resulted in different virus sequences from same sample. These bioinformatic workflows produced consensus genomes with differences in single nucleotide polymorphisms, inclusion and exclusion of insertions, and/or deletions, despite using the same raw sequence as input datasets. Here, we compared and characterized such discrepancies and propose a specific suite of parameters and protocols that should be adopted across the field. Consistent results from bioinformatic workflows are fundamental to SARS-CoV-2 and future pathogen surveillance efforts, including pandemic preparation, to allow for a data-driven and timely public health response.

Published
2024
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3. NCBI’s Virus Discovery Codeathon: Building 'FIVE' —The Federated Index of Viral Experiments API Index

Author

Joan Martí-Carreras, Alejandro Rafael Gener, Sierra D. Miller, Anderson F. Brito, Christiam E. Camacho, Ryan Connor, Ward Deboutte, Cody Glickman, David M. Kristensen, Wynn K. Meyer, Sejal Modha, Alexis L. Norris, Surya Saha, Anna K. Belford, Evan Biederstedt, James Rodney Brister, Jan P. Buchmann, Nicholas P. Cooley, Robert A. Edwards, Kiran Javkar, Michael Muchow, Harihara Subrahmaniam Muralidharan, Charles Pepe-Ranney, Nidhi Shah, Migun Shakya, Michael J. Tisza, Benjamin J. Tully, Bert Vanmechelen, Valerie C. Virta, JL Weissman, Vadim Zalunin, Alexandre Efremov, and Ben Busby

Subjects
data federation, CRISPR, protein domain, metagenomics, virus, genome graphs, Microbiology, QR1-502
Abstract

Viruses represent important test cases for data federation due to their genome size and the rapid increase in sequence data in publicly available databases. However, some consequences of previously decentralized (unfederated) data are lack of consensus or comparisons between feature annotations. Unifying or displaying alternative annotations should be a priority both for communities with robust entry representation and for nascent communities with burgeoning data sources. To this end, during this three-day continuation of the Virus Hunting Toolkit codeathon series (VHT-2), a new integrated and federated viral index was elaborated. This Federated Index of Viral Experiments (FIVE) integrates pre-existing and novel functional and taxonomy annotations and virus–host pairings. Variability in the context of viral genomic diversity is often overlooked in virus databases. As a proof-of-concept, FIVE was the first attempt to include viral genome variation for HIV, the most well-studied human pathogen, through viral genome diversity graphs. As per the publication of this manuscript, FIVE is the first implementation of a virus-specific federated index of such scope. FIVE is coded in BigQuery for optimal access of large quantities of data and is publicly accessible. Many projects of database or index federation fail to provide easier alternatives to access or query information. To this end, a Python API query system was developed to enhance the accessibility of FIVE.

Published
2020
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9. Metastatic melanoma: an unexpected cause of acute liver failure.

Author

O'Neill, Robert S., Leaver, Phillip, Ryan, Connor, Liang, Sharron, Sanagapalli, Santosh, and Cosman, Rasha

Abstract

Acute liver failure secondary to metastatic melanoma is exceedingly rare with the literature limited to case reports. The disease itself presents with vague symptoms making diagnosis difficult without a high clinical suspicion. Further to this, the prognosis of acute liver failure secondary to metastatic melanoma is dismal. We present the case of a 59-year-old male with a distant history of previously excised cutaneous melanoma who presented to our institution with abdominal pain and liver enzyme derangement suggestive of acute hepatitis. Due to progressive derangement in liver function and cross-sectional imaging suggestive of an infiltrative cause, a left axillary lymph node was biopsied which demonstrated metastatic melanoma. The patient subsequently deteriorated into acute liver failure and despite acute treatment of his underlying metastatic melanoma died 17 days post initial presentation. This case highlights an uncommon cause of acute liver failure as well as the poor prognosis associated with acute liver failure secondary to metastatic melanoma. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Lessons learned in virulence factor identification and data management from a hackathon on microbial virulence [version 1; peer review: 1 approved with reservations]

Author

Brett E. Pickett, Ryan Connor, Tamiru Berhanu-Denka, Sherry Bhalla, Vyacheslav Brover, Michael James Chambers, Kumardeep Chaudhary, Ousmane H. Cissé, Allissa Dillman, Moamen M. Elmassry, Michael Feldgarden, Eric Holloway, Xin Huang, William Klimke, Catarina Inês Mendes, S. Elizabeth Norred, Jonathan Parkinson, Samantha Sevilla, Monica Garcia Solache, Defne Surujon, Udana Torian, Vadim Zalunin, and Ben Busby

Subjects
Software Tool Article, Articles, enterococcus, transposons, plasmids, antimicrobial resistance, blast, data indexing, bioinformatics, data mining, metadata, metagenomics, algorithmic information
Abstract

Virulence is a complex mix of microbial traits and host susceptibility that could ultimately lead to disease. The increased prevalence of multidrug resistant infections complicates treatment options, augmenting the need for developing robust computational methods and pipelines that enable researchers and clinicians to rapidly identify the underlying mechanism(s) of virulence in any given sample/isolate. Consequently, the National Center for Biotechnology and Information at the National Institutes of Health hosted an in-person hackathon in Bethesda, Maryland during July 2019 to assist with developing cloud-based methods to reduce reliance on local computational infrastructure. Groups of attendees were assigned tasks that are relevant to identifying relevant tools, constructing pipelines capable of identifying microbial virulence factors, and managing the associated data and metadata. Specifically, the assigned tasks consisted of the following: data indexing, metabolic functions, virulence factors, antimicrobial resistance, mobile elements in enterococci, and metatranscriptomics. The cloud-based framework established by this hackathon can be augmented and built upon by the research community to aid in the rapid identification of microbial virulence factors.

Published
2022
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13. The effects of genome size on cell size and the functional composition and morphology of leaves: a case study in Rhododendron (Ericaceae)

Author

Dastpak, Arezoo, primary, Williams, Monica, additional, Perkins, Sally, additional, Perkins, John, additional, Horn, Charles, additional, Thompson, Patrick, additional, Ryan, Connor, additional, Medeiros, Juliana, additional, An, Yi-Dong, additional, Jiang, Guo-Feng, additional, Simonin, Kevin, additional, and Roddy, Adam, additional

Published
2023
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22. Database resources of the national center for biotechnology information

Author

Eric W Sayers, Evan E Bolton, J Rodney Brister, Kathi Canese, Jessica Chan, Donald C Comeau, Ryan Connor, Kathryn Funk, Chris Kelly, Sunghwan Kim, Tom Madej, Aron Marchler-Bauer, Christopher Lanczycki, Stacy Lathrop, Zhiyong Lu, Francoise Thibaud-Nissen, Terence Murphy, Lon Phan, Yuri Skripchenko, Tony Tse, Jiyao Wang, Rebecca Williams, Barton W Trawick, Kim D Pruitt, and Stephen T Sherry

Subjects
Internet, PubMed, 0303 health sciences, National Library of Medicine (U.S.), 030302 biochemistry & molecular biology, Computational Biology, Genomics, United States, 03 medical and health sciences, ComputingMethodologies_PATTERNRECOGNITION, 0302 clinical medicine, Databases, Genetic, Genetics, Humans, Database Issue, Databases, Nucleic Acid, Databases, Protein, 030217 neurology & neurosurgery, Databases, Chemical, Biotechnology, 030304 developmental biology
Abstract

The National Center for Biotechnology Information (NCBI) provides a large suite of online resources for biological information and data, including the GenBank® nucleic acid sequence database and the PubMed® database of citations and abstracts published in life science journals. The Entrez system provides search and retrieval operations for most of these data from 34 distinct databases. The E-utilities serve as the programming interface for the Entrez system. Custom implementations of the BLAST program provide sequence-based searching of many specialized datasets. New resources released in the past year include a new PubMed interface and NCBI datasets. Additional resources that were updated in the past year include PMC, Bookshelf, Genome Data Viewer, SRA, ClinVar, dbSNP, dbVar, Pathogen Detection, BLAST, Primer-BLAST, IgBLAST, iCn3D and PubChem. All of these resources can be accessed through the NCBI home page at https://www.ncbi.nlm.nih.gov.

Published
2021

24. Towards increased accuracy and reproducibility in SARS-CoV-2 next generation sequence analysis for public health surveillance

Author

Ryan Connor, David A. Yarmosh, Wolfgang Maier, Migun Shakya, Ross Martin, Rebecca Bradford, J. Rodney Brister, Patrick SG Chain, Courtney A. Copeland, Julia di Iulio, Bin Hu, Philip Ebert, Jonathan Gunti, Yumi Jin, Kenneth S. Katz, Andrey Kochergin, Tré LaRosa, Jiani Li, Po-E Li, Chien-Chi Lo, Sujatha Rashid, Evguenia S. Maiorova, Chunlin Xiao, Vadim Zalunin, and Kim D. Pruitt

Subjects
Article
Abstract

During the COVID-19 pandemic, SARS-CoV-2 surveillance efforts integrated genome sequencing of clinical samples to identify emergent viral variants and to support rapid experimental examination of genome-informed vaccine and therapeutic designs. Given the broad range of methods applied to generate new viral genomes, it is critical that consensus and variant calling tools yield consistent results across disparate pipelines. Here we examine the impact of sequencing technologies (Illumina and Oxford Nanopore) and 7 different downstream bioinformatic protocols on SARS-CoV-2 variant calling as part of the NIH Accelerating COVID-19 Therapeutic Interventions and Vaccines (ACTIV) Tracking Resistance and Coronavirus Evolution (TRACE) initiative, a public-private partnership established to address the COVID-19 outbreak. Our results indicate that bioinformatic workflows can yield consensus genomes with different single nucleotide polymorphisms, insertions, and/or deletions even when using the same raw sequence input datasets. We introduce the use of a specific suite of parameters and protocols that greatly improves the agreement among pipelines developed by diverse organizations. Such consistency among bioinformatic pipelines is fundamental to SARS-CoV-2 and future pathogen surveillance efforts. The application of analysis standards is necessary to more accurately document phylogenomic trends and support data-driven public health responses.

Published
2022

29. Quantifying the immunological distinctiveness of emerging SARS-CoV-2 variants in the context of prior regional herd exposure

Author

Michiel J.M. Niesen, Karthik Murugadoss, Patrick J. Lenehan, Aron Marchler-Bauer, Jiyao Wang, Ryan Connor, J. Rodney Brister, AJ Venkatakrishnan, and Venky Soundararajan

Abstract

The COVID-19 pandemic has seen the persistent emergence of immune-evasive SARS-CoV-2 variants under the selection pressure of natural and vaccination-acquired immunity. However, it is currently challenging to quantify how immunologically distinct a new variant is compared to all the prior variants to which a population has been exposed. Here, we define “Distinctiveness” of SARS-CoV-2 sequences based on a proteome-wide comparison with all prior sequences from the same geographical region. We observe a correlation between Distinctiveness relative to contemporary sequences and future change in prevalence of a newly circulating lineage (Pearson r = 0.75), suggesting that the Distinctiveness of emergent SARS-CoV-2 lineages is associated with their epidemiological fitness. We further show that the average Distinctiveness of sequences belonging to a lineage, relative to the Distinctiveness of other sequences that occur at the same place and time (n = 944 location/time data points), is predictive of future increases in prevalence (Area Under the Curve, AUC = 0.88 [95% confidence interval 0.86 to 0.90]). By assessing the Delta variant in India versus Brazil, we show that the same lineage can have different Distinctiveness-contributing positions in different geographical regions depending on the other variants that previously circulated in those regions. Finally, we find that positions that constitute epitopes contribute disproportionately (20-fold higher than the average position) to Distinctiveness. Overall, this study suggests that real-time assessment of new SARS-CoV-2 variants in the context of prior regional herd exposure via Distinctiveness can augment genomic surveillance efforts.

Published
2022

33. Implementation of CDC Guidelines for Recess: A Formative Research Study

Author

Gabriela Calderon Velazquez, Tania Haag, Ryan Connor, Beth Marshall, and Shazeen Suleman

Subjects
Medical education, Nursing (miscellaneous), Schools, Socioemotional selectivity theory, education, Public Health, Environmental and Occupational Health, Physical health, Cognition, Focus Groups, Social Environment, Child development, Child Development, Humans, Health education, School health, Psychology, Child, Exercise, Formative research, Qualitative research, School Health Services
Abstract

The American Academy of Pediatrics recognizes recess as an essential part of overall child development in schools, impacting children’s cognitive, socioemotional and physical health and development. However, recess is often removed from the school curriculum in exchange for more classroom activities. The Centers for Disease Control and Prevention (CDC) and SHAPE America developed Strategies for Recess in Schools to promote high-quality recess through specific actions, yet is not known how these are successfully implemented, particularly, in underserved settings. This formative research study examined the implementation of the CDC strategy in an urban, inner-city charter elementary school to identify barriers and facilitators to successful recess implementation from the perspective of various stakeholders. Thirteen in-depth interviews and focus group discussions were conducted with parents, teachers, recess monitors, and school administrators. Interviews were recorded, transcribed, and coded for thematic analysis, supported by group discussion and analytic memos. Results suggested that although stakeholders recognized the importance of recess, the implementation of the CDC strategy was neither uniformly understood nor implemented, suggesting that additional frameworks may be helpful in implementing the CDC strategy in schools in underserved communities.

Published
2021

34. EDGE COVID-19: a web platform to generate submission-ready genomes from SARS-CoV-2 sequencing efforts

Author

Chien-Chi Lo, Migun Shakya, Ryan Connor, Karen Davenport, Mark Flynn, Adán Myers y Gutiérrez, Bin Hu, Po-E Li, Elais Player Jackson, Yan Xu, and Patrick S G Chain

Subjects
Statistics and Probability, Computational Mathematics, Computational Theory and Mathematics, SARS-CoV-2, COVID-19, Humans, Genome, Viral, Genomics, Molecular Biology, Biochemistry, Pandemics, Computer Science Applications
Abstract

Summary Genomics has become an essential technology for surveilling emerging infectious disease outbreaks. A range of technologies and strategies for pathogen genome enrichment and sequencing are being used by laboratories worldwide, together with different and sometimes ad hoc, analytical procedures for generating genome sequences. A fully integrated analytical process for raw sequence to consensus genome determination, suited to outbreaks such as the ongoing COVID-19 pandemic, is critical to provide a solid genomic basis for epidemiological analyses and well-informed decision making. We have developed a web-based platform and integrated bioinformatic workflows that help to provide consistent high-quality analysis of SARS-CoV-2 sequencing data generated with either the Illumina or Oxford Nanopore Technologies (ONT). Using an intuitive web-based interface, this workflow automates data quality control, SARS-CoV-2 reference-based genome variant and consensus calling, lineage determination and provides the ability to submit the consensus sequence and necessary metadata to GenBank, GISAID and INSDC raw data repositories. We tested workflow usability using real world data and validated the accuracy of variant and lineage analysis using several test datasets, and further performed detailed comparisons with results from the COVID-19 Galaxy Project workflow. Our analyses indicate that EC-19 workflows generate high-quality SARS-CoV-2 genomes. Finally, we share a perspective on patterns and impact observed with Illumina versus ONT technologies on workflow congruence and differences. Availability and implementation https://edge-covid19.edgebioinformatics.org, and https://github.com/LANL-Bioinformatics/EDGE/tree/SARS-CoV2. Supplementary information Supplementary data are available at Bioinformatics online.

Published
2021

36. Data proliferation, reconciliation, and synthesis in viral ecology

Author

Angela L. Rasmussen, Amy R. Sweeny, Tad A. Dallas, Colin J. Carlson, Rory Gibb, Gregory F. Albery, Liam Brierley, Timothée Poisot, Daniel J. Becker, Sadie J. Ryan, Ryan Connor, Maxwell J. Farrell, and Evan A. Eskew

Subjects
Metadata, Scope (project management), Computer science, Ecology, Ecology (disciplines), Pandemic, Human virome, Evolutionary ecology, Taxonomy (biology), Data proliferation
Abstract

The fields of viral ecology and evolution have rapidly expanded in the last two decades, driven by technological improvements, and motivated by efforts to discover potentially zoonotic wildlife viruses under the rubric of pandemic prevention. One consequence has been a massive proliferation of host-virus association data, which comprise the backbone of research in viral macroecology and zoonotic risk prediction. These data remain fragmented across numerous data portals and projects, each with their own scope, structure, and reporting standards. Here, we propose that synthesis of host-virus association data is a central challenge to improve our understanding of the global virome and develop foundational theory in viral ecology. To illustrate this, we build an open reconciled mammal-virus database from four key published datasets, applying a standardized taxonomy and metadata. We show that reconciling these datasets provides a substantially richer view of the mammal virome than that offered by any one individual database. We argue for a shift in best practice towards the incremental development and use of synthetic datasets in viral ecology research, both to improve comparability and replicability across studies, and to facilitate future efforts to use machine learning to predict the structure and dynamics of the global virome.

Published
2021

37. NCBI’s Virus Discovery Codeathon: Building 'FIVE' —The Federated Index of Viral Experiments API Index

Author

Christiam Camacho, Ben Busby, Evan Biederstedt, Benjamin J. Tully, David M. Kristensen, Nicholas P. Cooley, Ward Deboutte, Alexis L. Norris, Sierra D. Miller, Kiran Javkar, Cody Glickman, Alexandre Efremov, Ryan Connor, Anderson F. Brito, Nidhi Shah, Michael Muchow, Alejandro Rafael Gener, Bert Vanmechelen, Michael J. Tisza, Sejal Modha, Vadim Zalunin, Charles Pepe-Ranney, Jan P. Buchmann, Jake L. Weissman, Migun Shakya, Harihara Subrahmaniam Muralidharan, Surya Saha, Robert Edwards, Valerie C. Virta, Joan Martí-Carreras, James Rodney Brister, Wynn K. Meyer, and Anna K. Belford

Subjects
0301 basic medicine, Computer science, DATABASE, data federation, lcsh:QR1-502, Genome, Viral, virus, Web Browser, Genome, Article, Virus, lcsh:Microbiology, User-Computer Interface, Viral Proteins, 03 medical and health sciences, 0302 clinical medicine, Data sequences, CRISPR, protein domain, metagenomics, genome graphs, HIV-1, Virology, RESOURCE, Databases, Genetic, Humans, Genome size, computer.programming_language, Information retrieval, Science & Technology, Computational Biology, Genetic Variation, Python (programming language), 030104 developmental biology, Infectious Diseases, Test case, Metagenomics, Host-Pathogen Interactions, Viruses, computer, Life Sciences & Biomedicine, 030217 neurology & neurosurgery
Abstract

Viruses represent important test cases for data federation due to their genome size and the rapid increase in sequence data in publicly available databases. However, some consequences of previously decentralized (unfederated) data are lack of consensus or comparisons between feature annotations. Unifying or displaying alternative annotations should be a priority both for communities with robust entry representation and for nascent communities with burgeoning data sources. To this end, during this three-day continuation of the Virus Hunting Toolkit codeathon series (VHT-2), a new integrated and federated viral index was elaborated. This Federated Index of Viral Experiments (FIVE) integrates pre-existing and novel functional and taxonomy annotations and virus-host pairings. Variability in the context of viral genomic diversity is often overlooked in virus databases. As a proof-of-concept, FIVE was the first attempt to include viral genome variation for HIV, the most well-studied human pathogen, through viral genome diversity graphs. As per the publication of this manuscript, FIVE is the first implementation of a virus-specific federated index of such scope. FIVE is coded in BigQuery for optimal access of large quantities of data and is publicly accessible. Many projects of database or index federation fail to provide easier alternatives to access or query information. To this end, a Python API query system was developed to enhance the accessibility of FIVE. ispartof: VIRUSES-BASEL vol:12 issue:12 ispartof: location:Switzerland status: published

Published
2020

39. Database resources of the National Center for Biotechnology Information

Author

Eric W Sayers, Richa Agarwala, Evan E Bolton, J Rodney Brister, Kathi Canese, Karen Clark, Ryan Connor, Nicolas Fiorini, Kathryn Funk, Timothy Hefferon, J Bradley Holmes, Sunghwan Kim, Avi Kimchi, Paul A Kitts, Stacy Lathrop, Zhiyong Lu, Thomas L Madden, Aron Marchler-Bauer, Lon Phan, Valerie A Schneider, Conrad L Schoch, Kim D Pruitt, and James Ostell

Subjects
0301 basic medicine, Web Browser, United States, 03 medical and health sciences, ComputingMethodologies_PATTERNRECOGNITION, 030104 developmental biology, 0302 clinical medicine, Databases, Genetic, Genetics, Animals, Humans, Database Issue, Databases, Chemical, Software, 030217 neurology & neurosurgery, Biotechnology
Abstract

The National Center for Biotechnology Information (NCBI) provides a large suite of online resources for biological information and data, including the GenBank® nucleic acid sequence database and the PubMed database of citations and abstracts published in life science journals. The Entrez system provides search and retrieval operations for most of these data from 38 distinct databases. The E-utilities serve as the programming interface for the Entrez system. Augmenting many of the web applications are custom implementations of the BLAST program optimized to search specialized data sets. New resources released in the past year include PubMed Labs and a new sequence database search. Resources that were updated in the past year include PubMed, PMC, Bookshelf, genome data viewer, Assembly, prokaryotic genomes, Genome, BioProject, dbSNP, dbVar, BLAST databases, igBLAST, iCn3D and PubChem. All of these resources can be accessed through the NCBI home page at www.ncbi.nlm.nih.gov.

Published
2018

43. Frontline Science: c-Myc regulates P-selectin glycoprotein ligand-1 expression in monocytes during HIV-1 infection

Author

Sanjay B. Maggirwar, Juilee Thakar, Xing Qiu, Letitia D. Jones, and Ryan Connor

Subjects
Adult, Male, 0301 basic medicine, MAPK/ERK pathway, Immunology, HIV Infections, Biology, Models, Biological, Proto-Oncogene Proteins c-myc, Mice, 03 medical and health sciences, Leukocytes, Transcriptional regulation, Animals, Humans, Immunology and Allergy, Transcription factor, Aged, Regulation of gene expression, Membrane Glycoproteins, integumentary system, Cell Biology, Middle Aged, Leukocyte extravasation, P-Selectin, Crosstalk (biology), 030104 developmental biology, Gene Expression Regulation, HIV-1, Cancer research, Spotlight on Leading Edge Research, Female, P-selectin glycoprotein ligand-1, Signal transduction, Signal Transduction
Abstract

Leukocyte extravasation is a crucial feature of the normal immune response to disease and infection and is implicated in various pathologies during chronic inflammatory disease. P-Selectin glycoprotein ligand-1 (PSGL-1) is critical for leukocyte extravasation; however, despite extensive study, it remains unclear how its expression is regulated, which in turn, impedes a more precise understanding of how its expression level affects transmigration. To investigate the regulation of PSGL-1, 60 subjects, with or without HIV infection, were recruited and PSGL-1 expression in monocytes was measured. PSGL-1 was found to be up-regulated on leukocytes from HIV-infected individuals, and the physiologically relevant mediators soluble CD40 ligand (sCD40L) and glutamate were able to induce PSGL-1 transcription in human monocytes ex vivo. HIV-1 induced PSGL-1 induction, and its dependence on CD40L was validated further by use of the mouse-tropic HIV (EcoHIV) mouse model of HIV infection in C57BL/6 and CD40L knockout (KO) mice. To investigate crosstalk between the signaling cascades induced by CD40L and glutamate that lead to PSGL-1 induction, a network-based, discrete dynamic model was developed. The model reveals the MAPK pathway and oxidative stress as critical mediators of crosstalk between CD40L and glutamate-induced pathways. Importantly, the model predicted induction of the c-Myc transcription factor upon cotreatment, which was validated using transcriptomic data and pharmacologic inhibition of c-Myc. This study suggests a novel systems serology approach for translational research and reveals a mechanism for PSGL-1 transcriptional regulation, which might be leveraged to identify novel targets for therapeutic intervention.

Published
2017

44. NCBI’s Virus Discovery Hackathon: Engaging Research Communities to Identify Cloud Infrastructure Requirements

Author

David M. Kristensen, Shane Levi, Ward Deboutte, Vikas Peddu, Ben Busby, Jan P. Buchmann, Eldred Ribeiro, Vadim Zalunin, Rodney Brister, Benjamin P. Kellman, Margaret Henderson, Adrian Cantu, Carl Leubsdorf, Cody Glickman, Migun Shakya, Bert Vanmechelen, Lindsay Rutter, Ryan C. Shean, Lydia Fleischmann, Juan S. Andrade-Martínez, Sanzhima Garmaeva, Alise J. Ponsero, Benjamin J. Tully, Laura M. Forero-Junco, Alexandre Efremov, Kyle Levi, Surya Saha, Farrah Roy, Ken Youens-Clark, Michael J. Tisza, Christopher J R Turkington, Robert Edwards, Michael D’Amour, Melissa Giluso, Matthew A. Miller, Ryan Connor, Joan Martí-Carreras, and Suman B. Pakala

Subjects
0301 basic medicine, Big Data, 020205 medical informatics, lcsh:QH426-470, Computer science, STRIDES, Big data, Cloud computing, 02 engineering and technology, Genome, Viral, infrastructure, Article, World Wide Web, 03 medical and health sciences, RESOURCE, Node (computer science), 0202 electrical engineering, electronic engineering, information engineering, Genetics, Humans, viruses, metagenomic, Genetics (clinical), Genetics & Heredity, Biological data, Science & Technology, Event (computing), business.industry, Genome, Human, cloud computing, Metadata, lcsh:Genetics, 030104 developmental biology, Workflow, Metagenomics, hackathon, Metagenome, business, Life Sciences & Biomedicine, SRA, Software
Abstract

A wealth of viral data sits untapped in publicly available metagenomic data sets when it might be extracted to create a usable index for the virological research community. We hypothesized that work of this complexity and scale could be done in a hackathon setting. Ten teams comprised of over 40 participants from six countries, assembled to create a crowd-sourced set of analysis and processing pipelines for a complex biological data set in a three-day event on the San Diego State University campus starting 9 January 2019. Prior to the hackathon, 141,676 metagenomic data sets from the National Center for Biotechnology Information (NCBI) Sequence Read Archive (SRA) were pre-assembled into contiguous assemblies (contigs) by NCBI staff. During the hackathon, a subset consisting of 2953 SRA data sets (approximately 55 million contigs) was selected, which were further filtered for a minimal length of 1 kb. This resulted in 4.2 million (Mio) contigs, which were aligned using BLAST against all known virus genomes, phylogenetically clustered and assigned metadata. Out of the 4.2 Mio contigs, 360,000 contigs were labeled with domains and an additional subset containing 4400 contigs was screened for virus or virus-like genes. The work yielded valuable insights into both SRA data and the cloud infrastructure required to support such efforts, revealing analysis bottlenecks and possible workarounds thereof. Mainly: (i) Conservative assemblies of SRA data improves initial analysis steps, (ii) existing bioinformatic software with weak multithreading/multicore support can be elevated by wrapper scripts to use all cores within a computing node, (iii) redesigning existing bioinformatic algorithms for a cloud infrastructure to facilitate its use for a wider audience, and (iv) a cloud infrastructure allows a diverse group of researchers to collaborate effectively. The scientific findings will be extended during a follow-up event. Here, we present the applied workflows, initial results, and lessons learned from the hackathon.

Published
2019

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