20 results on '"Brito, Anderson F."'
Search Results
2. Global disparities in SARS-CoV-2 genomic surveillance
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Brito, Anderson F., Semenova, Elizaveta, Dudas, Gytis, Hassler, Gabriel W., Kalinich, Chaney C., Kraemer, Moritz U. G., Ho, Joses, Tegally, Houriiyah, Githinji, George, Agoti, Charles N., Matkin, Lucy E., Whittaker, Charles, Howden, Benjamin P., Sintchenko, Vitali, Zuckerman, Neta S., Mor, Orna, Blankenship, Heather M., de Oliveira, Tulio, Lin, Raymond T. P., Siqueira, Marilda Mendonça, Resende, Paola Cristina, Vasconcelos, Ana Tereza R., Spilki, Fernando R., Aguiar, Renato Santana, Alexiev, Ivailo, Ivanov, Ivan N., Philipova, Ivva, Carrington, Christine V. F., Sahadeo, Nikita S. D., Branda, Ben, Gurry, Céline, Maurer-Stroh, Sebastian, Naidoo, Dhamari, von Eije, Karin J., Perkins, Mark D., van Kerkhove, Maria, Hill, Sarah C., Sabino, Ester C., Pybus, Oliver G., Dye, Christopher, Bhatt, Samir, Flaxman, Seth, Suchard, Marc A., Grubaugh, Nathan D., Baele, Guy, and Faria, Nuno R.
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- 2022
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3. A new lineage nomenclature to aid genomic surveillance of dengue virus.
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Hill, Verity, Cleemput, Sara, Pereira, James Siqueira, Gifford, Robert J., Fonseca, Vagner, Tegally, Houriiyah, Brito, Anderson F., Ribeiro, Gabriela, de Souza, Vinicius Carius, Brcko, Isabela Carvalho, Ribeiro, Igor Santana, De Lima, Iago Trezena Tavares, Slavov, Svetoslav Nanev, Sampaio, Sandra Coccuzzo, Elias, Maria Carolina, Tran, Vi Thuy, Kien, Duong Thi Hue, Huynh, Tuyen, Yacoub, Sophie, and Dieng, Idrissa
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DENGUE viruses ,EPIDEMICS ,GENOTYPES ,CLASSIFICATION - Abstract
Dengue virus (DENV) is currently causing epidemics of unprecedented scope in endemic settings and expanding to new geographical areas. It is therefore critical to track this virus using genomic surveillance. However, the complex patterns of viral genomic diversity make it challenging to use the existing genotype classification system. Here, we propose adding 2 sub-genotypic levels of virus classification, named major and minor lineages. These lineages have high thresholds for phylogenetic distance and clade size, rendering them stable between phylogenetic studies. We present an assignment tool to show that the proposed lineages are useful for regional, national, and subnational discussions of relevant DENV diversity. Moreover, the proposed lineages are robust to classification using partial genome sequences. We provide a standardized neutral descriptor of DENV diversity with which we can identify and track lineages of potential epidemiological and/or clinical importance. Information about our lineage system, including methods to assign lineages to sequence data and propose new lineages, can be found at: dengue-lineages.org. Dengue virus (DENV) is causing increasingly larger and more widespread epidemics, which makes it critical to track the virus using genomic surveillance, but there is currently no suitable system to classify circulating variants. This Consensus View proposes a new DENV nomenclature system and free online tools to identify and track lineages of potential epidemiological and/or clinical importance. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Multiple Transmission Chains within COVID-19 Cluster, Connecticut, USA, 2020
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Bart, Stephen M., Flaherty, Eileen, Alpert, Tara, Carlson, Sherry, Fasulo, Lisa, Earnest, Rebecca, White, Elizabeth B., Dickens, Noel, Brito, Anderson F., Grubaugh, Nathan D., Hadler, James L., and Sosa, Lynn E.
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Disease transmission -- Genetic aspects ,Fitness (Genetics) -- Health aspects ,Company distribution practices ,Health - Abstract
During widespread community transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), transmission chains are sometimes unclear. Although often unavailable, viral genome sequencing can complement epidemiologic investigations. In fall 2020, [...]
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- 2021
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5. SARS-CoV-2 infection of the placenta
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Hosier, Hillary, Farhadian, Shelli F., Morotti, Raffaella A., Deshmukh, Uma, Lu-Culligan, Alice, Campbell, Katherine H., Yasumoto, Yuki, Vogels, Chantal B.F., Casanovas-Massana, Arnau, Vijayakumar, Pavithra, Geng, Bertie, Odio, Camila D., Fournier, John, Brito, Anderson F., Fauver, Joseph R., Liu, Feimei, Alpert, Tara, Tal, Reshef, Szigeti-Buck, Klara, Perincheri, Sudhir, Larsen, Christopher, Gariepy, Aileen M., Aguilar, Gabriela, Fardelmann, Kristen L., Harigopal, Malini, Taylor, Hugh S., Pettker, Christian M., Wyllie, Anne L., Dela Cruz, Charles, Ring, Aaron M., Grubaugh, Nathan D., Ko, Albert I., Horvath, Tamas L., Iwasaki, Akiko, Reddy, Uma M., and Lipkind, Heather S.
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Severe acute respiratory syndrome -- Health aspects -- Analysis ,Coronaviruses -- Analysis -- Health aspects ,Venture capital companies -- Analysis -- Health aspects ,Pregnancy -- Analysis -- Health aspects ,Neonatology -- Analysis -- Health aspects ,Pregnant women -- Health aspects -- Analysis ,Tranexamic acid -- Health aspects -- Analysis ,COVID-19 -- Analysis -- Health aspects ,Health care industry - Abstract
BACKGROUND. The effects of the novel coronavirus disease 2019 (COVID-19) in pregnancy remain relatively unknown. We present a case of second trimester pregnancy with symptomatic COVID-19 complicated by severe preeclampsia and placental abruption. METHODS. We analyzed the placenta for the presence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) through molecular and immunohistochemical assays and by and electron microscopy and measured the maternal antibody response in the blood to this infection. RESULTS. SARS-CoV-2 localized predominantly to syncytiotrophoblast cells at the materno-fetal interface of the placenta. Histological examination of the placenta revealed a dense macrophage infiltrate, but no evidence for the vasculopathy typically associated with preeclampsia. CONCLUSION. This case demonstrates SARS-CoV-2 invasion of the placenta, highlighting the potential for severe morbidity among pregnant women with COVID-19. FUNDING. Beatrice Kleinberg Neuwirth Fund and Fast Grant Emergent Ventures funding from the Mercatus Center at George Mason University. The funding bodies did not have roles in the design of the study or data collection, analysis, and interpretation and played no role in writing the manuscript., Introduction Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a novel betacoronavirus causing the deadly pandemic of coronavirus disease 2019 (COVID-19). The risks and specific effects of SARS-CoV-2 in pregnant [...]
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- 2020
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6. Analytical sensitivity and efficiency comparisons of SARS-CoV-2 RT–qPCR primer–probe sets
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Vogels, Chantal B. F., Brito, Anderson F., Wyllie, Anne L., Fauver, Joseph R., Ott, Isabel M., Kalinich, Chaney C., Petrone, Mary E., Casanovas-Massana, Arnau, Catherine Muenker, M., Moore, Adam J., Klein, Jonathan, Lu, Peiwen, Lu-Culligan, Alice, Jiang, Xiaodong, Kim, Daniel J., Kudo, Eriko, Mao, Tianyang, Moriyama, Miyu, Oh, Ji Eun, Park, Annsea, Silva, Julio, Song, Eric, Takahashi, Takehiro, Taura, Manabu, Tokuyama, Maria, Venkataraman, Arvind, Weizman, Orr-El, Wong, Patrick, Yang, Yexin, Cheemarla, Nagarjuna R., White, Elizabeth B., Lapidus, Sarah, Earnest, Rebecca, Geng, Bertie, Vijayakumar, Pavithra, Odio, Camila, Fournier, John, Bermejo, Santos, Farhadian, Shelli, Dela Cruz, Charles S., Iwasaki, Akiko, Ko, Albert I., Landry, Marie L., Foxman, Ellen F., and Grubaugh, Nathan D.
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- 2020
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7. Phylogeographic reconstruction of the emergence and spread of Powassan virus in the northeastern United States.
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Vogels, Chantal B. F., Brackney, Doug E., Dupuis II, Alan P., Robich, Rebecca M., Fauver, Joseph R., Brito, Anderson F., Williams, Scott C., Anderson, John F., Lubelczyk, Charles B., Lange, Rachel E., Prusinski, Melissa A., Kramer, Laura D., Gangloff-Kaufmann, Jody L., Goodman, Laura B., Baele, Guy, Smith, Robert P., Armstrong, Philip M., Ciota, Alexander T., Dellicour, Simon, and Grubaugh, Nathan D.
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IXODES scapularis ,WHITE-tailed deer ,VIRAL transmission ,CLUSTER sampling - Abstract
Powassan virus is an emerging tick-borne virus of concern for public health, but very little is known about its transmission patterns and ecology. Here, we expanded the genomic dataset by sequencing 279 Powassan viruses isolated from Ixodes scapularis ticks from the northeastern United States. Our phylogeographic reconstructions revealed that Powassan virus lineage II was likely introduced or emerged from a relict population in the Northeast between 1940 and 1975. Sequences strongly clustered by sampling location, suggesting a highly focal geographical distribution. Our analyses further indicated that Powassan virus lineage II emerged in the northeastern United States mostly following a south-to-north pattern, with a weighted lineage dispersal velocity of ~3 km/y. Since the emergence in the Northeast, we found an overall increase in the effective population size of Powassan virus lineage II, but with growth stagnating during recent years. The cascading effect of population expansion of white-tailed deer and I. scapularis populations likely facilitated the emergence of Powassan virus in the northeastern United States. [ABSTRACT FROM AUTHOR]
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- 2023
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8. Thinking out of the box: revisiting health surveillance based on medical records.
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Sampaio, Vanderson S., Lopes, Rafael, Cintho Ozahata, Mina, Nakaya, Helder I., Sousa, Erick, Araújo, José D., Bragatte, Marcelo A. S., Brito, Anderson F., Zettoni Grespan, Regina Maura, Damato Capuani, Maria Ligia, Humberto Domingues, Helves, Guedes Pellini, Alessandra Cristina, de Oliveira Garcia Mateos, Sheila, Reis Pessoa Conde, Mônica Tilli, Eudes Leal, Fabio, Sabino, Ester, Simão, Mariangela, and Kalil, Jorge
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- 2023
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9. Longitudinal Immune Profiling of a Severe Acute Respiratory Syndrome Coronavirus 2 Reinfection in a Solid Organ Transplant Recipient.
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Klein, Jonathan, Brito, Anderson F, Trubin, Paul, Lu, Peiwen, Wong, Patrick, Alpert, Tara, Peña-Hernández, Mario A, Haynes, Winston, Kamath, Kathy, Liu, Feimei, Vogels, Chantal B F, Fauver, Joseph R, Lucas, Carolina, Oh, Jieun, Mao, Tianyang, Silva, Julio, Wyllie, Anne L, Muenker, M Catherine, Casanovas-Massana, Arnau, and Moore, Adam J
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CORONAVIRUS diseases , *HUMORAL immunity , *TRANSPLANTATION of organs, tissues, etc. , *COVID-19 , *REINFECTION , *WHOLE genome sequencing , *INFECTION - Abstract
Background: The underlying immunologic deficiencies enabling severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) reinfection are currently unknown. We describe deep longitudinal immune profiling of a transplant recipient hospitalized twice for coronavirus disease 2019 (COVID-19).Methods: A 66-year-old male renal transplant recipient was hospitalized with COVID-19 March 2020 then readmitted to the hospital with COVID-19 233 days after initial diagnosis. Virologic and immunologic investigations were performed on samples from the primary and secondary infections.Results: Whole viral genome sequencing and phylogenetic analysis revealed that viruses causing both infections were caused by distinct genetic lineages without evidence of immune escape mutations. Longitudinal comparison of cellular and humoral responses during primary SARS-CoV-2 infection revealed that this patient responded to the primary infection with low neutralization titer anti-SARS-CoV-2 antibodies that were likely present at the time of reinfection.Conclusions: The development of neutralizing antibodies and humoral memory responses in this patient failed to confer protection against reinfection, suggesting that they were below a neutralizing titer threshold or that additional factors may be required for efficient prevention of SARS-CoV-2 reinfection. Development of poorly neutralizing antibodies may have been due to profound and relatively specific reduction in naive CD4 T-cell pools. Seropositivity alone may not be a perfect correlate of protection in immunocompromised patients. [ABSTRACT FROM AUTHOR]- Published
- 2022
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10. Multiple Transmission Chains within COVID-19 Cluster, Connecticut, USA, 20201.
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Bart, Stephen M., Flaherty, Eileen, Alpert, Tara, Carlson, Sherry, Fasulo, Lisa, Earnest, Rebecca, White, Elizabeth B., Dickens, Noel, Brito, Anderson F., Grubaugh, Nathan D., Hadler, James L., and Sosa, Lynn E.
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COVID-19 ,SARS-CoV-2 ,PHYSICAL fitness centers ,RESPIRATORY infections - Abstract
In fall 2020, a coronavirus disease cluster comprising 16 cases occurred in Connecticut, USA. Epidemiologic and genomic evidence supported transmission among persons at a school and fitness center but not a workplace. The multiple transmission chains identified within this cluster highlight the necessity of a combined investigatory approach. [ABSTRACT FROM AUTHOR]
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- 2021
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- View/download PDF
11. COVID-19 one year into the pandemic: from genetics and genomics to therapy, vaccination, and policy.
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Novelli, Giuseppe, Biancolella, Michela, Mehrian-Shai, Ruty, Colona, Vito Luigi, Brito, Anderson F., Grubaugh, Nathan D., Vasiliou, Vasilis, Luzzatto, Lucio, and Reichardt, Juergen K. V.
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COVID-19 has engulfed the world and it will accompany us all for some time to come. Here, we review the current state at the milestone of 1 year into the pandemic, as declared by the WHO (World Health Organization). We review several aspects of the on-going pandemic, focusing first on two major topics: viral variants and the human genetic susceptibility to disease severity. We then consider recent and exciting new developments in therapeutics, such as monoclonal antibodies, and in prevention strategies, such as vaccines. We also briefly discuss how advances in basic science and in biotechnology, under the threat of a worldwide emergency, have accelerated to an unprecedented degree of the transition from the laboratory to clinical applications. While every day we acquire more and more tools to deal with the on-going pandemic, we are aware that the path will be arduous and it will require all of us being community-minded. In this respect, we lament past delays in timely full investigations, and we call for bypassing local politics in the interest of humankind on all continents. [ABSTRACT FROM AUTHOR]
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- 2021
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12. Intrahost speciations and host switches played an important role in the evolution of herpesviruses.
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Brito, Anderson F, Baele, Guy, Nahata, Kanika D, Grubaugh, Nathan D, and Pinney, John W
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HERPESVIRUSES ,GENETIC speciation ,MOLECULAR clock ,RECONCILIATION ,GENETIC distance - Abstract
In times when herpesvirus genomic data were scarce, the cospeciation between these viruses and their hosts was considered to be common knowledge. However, as more herpesviral sequences were made available, tree reconciliation analyses started to reveal topological incongruences between host and viral phylogenies, indicating that other cophylogenetic events, such as intrahost speciation and host switching, likely played important roles along more than 200 million years of evolutionary history of these viruses. Tree reconciliations performed with undated phylogenies can identify topological differences, but offer insufficient information to reveal temporal incongruences between the divergence timing of host and viral species. In this study, we performed cophylogenetic analyses using time-resolved trees of herpesviruses and their hosts, based on careful molecular clock modelling. This approach enabled us to infer cophylogenetic events over time and also integrate information on host biogeography to better understand host–virus evolutionary history. Given the increasing amount of sequence data now available, mismatches between host and viral phylogenies have become more evident, and to account for such phylogenetic differences, host switches, intrahost speciations and losses were frequently found in all tree reconciliations. For all subfamilies in Herpesviridae , under all scenarios we explored, intrahost speciation and host switching were more frequent than cospeciation, which was shown to be a rare event, restricted to contexts where topological and temporal patterns of viral and host evolution were in strict agreement. [ABSTRACT FROM AUTHOR]
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- 2021
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13. Real-time public health communication of local SARS-CoV-2 genomic epidemiology.
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Kalinich, Chaney C., Jensen, Cole G., Neugebauer, Peter, Petrone, Mary E., Peña-Hernández, Mario, Ott, Isabel M., Wyllie, Anne L., Alpert, Tara, Vogels, Chantal B. F., Fauver, Joseph R., Grubaugh, Nathan D., and Brito, Anderson F.
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SARS-CoV-2 ,VIRUS diseases ,PUBLIC communication ,LOCAL mass media ,EPIDEMIOLOGY - Abstract
Genomic epidemiology can provide a unique, real-time understanding of SARS-CoV-2 transmission patterns. Yet the potential for genomic analyses to guide local policy and community-based behavioral decisions is limited because they are often oriented towards specially trained scientists and conducted on a national or global scale. Here, we propose a new paradigm: Phylogenetic analyses performed on a local level (municipal, county, or state), with results communicated in a clear, timely, and actionable manner to strengthen public health responses. We believe that presenting results rapidly, and tailored to a non-expert audience, can serve as a template for effective public health response to COVID-19 and other emerging viral diseases. This Perspective article proposes a new paradigm to present SARS-CoV-2 phylogenetic analyses performed on a local level (municipal, county, or state), with results communicated in a clear, timely, and actionable manner. The authors believe that presenting results rapidly, and tailored to a non-expert audience, can serve as a template for effective public health communication for COVID-19 and other emerging viral diseases. [ABSTRACT FROM AUTHOR]
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- 2020
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14. The evolution of protein domain repertoires: Shedding light on the origins of the Herpesviridae family.
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Brito, Anderson F and Pinney, John W
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PROTEINS ,HERPESVIRUSES ,GENOMES ,HIDDEN Markov models ,PARSIMONIOUS models ,PHYLOGENY - Abstract
Herpesviruses (HVs, Family: Herpesviridae) have large genomes that encode hundreds of proteins. Apart from amino acid mutations, protein domain acquisitions, duplications and losses are also common modes of evolution. HV domain repertoires differ across species, and only a core set is shared among all species, aspect that raises a question: How have HV domain repertoires diverged while keeping some similarities? To answer such question, we used profile Hidden Markov Models (HMMs) to search for domains in all possible translated open reading frames (ORFs) of fully sequenced HV genomes. With at least 274 domains being identified, we built a matrix of domain counts per species, and applied a parsimony method to reconstruct the ancestral states of these domains along the HV phylogeny. It revealed events of domain gain, duplication, and loss over more than 400 millions of years, where Alpha-, Beta-, and GammaHVs expanded and condensed their domain repertoires at distinct rates. Most of the acquired domains perform 'Modulation and Control', 'Envelope', or 'Auxiliary' functions, categories that showed high flexibility (number of domains) and redundancy (number of copies). Conversely, few gains and duplications were observed for domains involved in 'Capsid assembly and structure', and 'DNA Replication, recombination and metabolism'. Among the forty-one primordial domains encoded by Herpesviridae ancestors, twenty-eight are still found in all present-day HVs. Because of their distinct evolutionary strategies, HV domain repertoires are very specific at the subfamily, genus and species levels. Differences in domain composition may not only explain HV host range and tissue tropism, but also provide hints to the origins of HVs. [ABSTRACT FROM AUTHOR]
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- 2020
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15. Twenty years of West Nile virus spread and evolution in the Americas visualized by Nextstrain.
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Hadfield, James, Brito, Anderson F., Swetnam, Daniele M., Vogels, Chantal B. F., Tokarz, Ryan E., Andersen, Kristian G., Smith, Ryan C., Bedford, Trevor, and Grubaugh, Nathan D.
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WEST Nile virus , *VIRUS diseases , *VIRAL genomes , *VIRAL encephalitis , *BIOLOGICAL evolution - Abstract
It has been 20 years since West Nile virus first emerged in the Americas, and since then, little progress has been made to control outbreaks caused by this virus. After its first detection in New York in 1999, West Nile virus quickly spread across the continent, causing an epidemic of human disease and massive bird die-offs. Now the virus has become endemic to the United States, where an estimated 7 million human infections have occurred, making it the leading mosquito-borne virus infection and the most common cause of viral encephalitis in the country. To bring new attention to one of the most important mosquito-borne viruses in the Americas, we provide an interactive review using Nextstrain: a visualization tool for real-time tracking of pathogen evolution (nextstrain.org/WNV/NA). Nextstrain utilizes a growing database of more than 2,000 West Nile virus genomes and harnesses the power of phylogenetics for students, educators, public health workers, and researchers to visualize key aspects of virus spread and evolution. Using Nextstrain, we use virus genomics to investigate the emergence of West Nile virus in the U S, followed by its rapid spread, evolution in a new environment, establishment of endemic transmission, and subsequent international spread. For each figure, we include a link to Nextstrain to allow the readers to directly interact with and explore the underlying data in new ways. We also provide a brief online narrative that parallels this review to further explain the data and highlight key epidemiological and evolutionary features (nextstrain.org/narratives/twenty-years-of-WNV). Mirroring the dynamic nature of outbreaks, the Nextstrain links provided within this paper are constantly updated as new West Nile virus genomes are shared publicly, helping to stay current with the research. Overall, our review showcases how genomics can track West Nile virus spread and evolution, as well as potentially uncover novel targeted control measures to help alleviate its public health burden. [ABSTRACT FROM AUTHOR]
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- 2019
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16. Protein-Protein Interactions in Virus-Host Systems.
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Brito, Anderson F. and Pinney, John W.
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PROTEIN-protein interactions ,INTERMOLECULAR interactions - Abstract
To study virus-host protein interactions, knowledge about viral and host protein architectures and repertoires, their particular evolutionary mechanisms, and information on relevant sources of biological data is essential. The purpose of this review article is to provide a thorough overview about these aspects. Protein domains are basic units defining protein interactions, and the uniqueness of viral domain repertoires, their mode of evolution, and their roles during viral infection make viruses interestingmodels of study. Mutations at protein interfaces can reduce or increase their binding affinities by changing protein electrostatics and structural properties. During the course of a viral infection, both pathogen and cellular proteins are constantly competing for binding partners. Endogenous interfaces mediating intraspecific interactions-viral-viral or host-host interactions-are constantly targeted and inhibited by exogenous interfaces mediating viral-host interactions. From a biomedical perspective, blocking such interactions is the main mechanism underlying antiviral therapies. Some proteins are able to bind multiple partners, and their modes of interaction define how fast these "hub proteins" evolve. "Party hubs" have multiple interfaces; they establish simultaneous/stable (domain-domain) interactions, and tend to evolve slowly. On the other hand, "date hubs" have few interfaces; they establish transient/weak (domain-motif) interactions by means of short linear peptides (15 or fewer residues), and can evolve faster. Viral infections are mediated by several protein-protein interactions (PPIs), which can be represented as networks (protein interaction networks, PINs), with proteins being depicted as nodes, and their interactions as edges. It has been suggested that viral proteins tend to establish interactions with more central and highly connected host proteins. In an evolutionary arms race, viral and host proteins are constantly changing their interface residues, either to evade or to optimize their binding capabilities. Apart fromgaining and losing interactions via rewiringmechanisms, virus-host PINs also evolve via gene duplication (paralogy); conservation (orthology); horizontal gene transfer (HGT) (xenology); and molecular mimicry (convergence). The last sections of this review focus on PPI experimental approaches and their limitations, and provide an overview of sources of biomolecular data for studying virus-host protein interactions. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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17. Early introductions and transmission of SARS-CoV-2 variant B.1.1.7 in the United States.
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Alpert, Tara, Brito, Anderson F., Lasek-Nesselquist, Erica, Rothman, Jessica, Valesano, Andrew L., MacKay, Matthew J., Petrone, Mary E., Breban, Mallery I., Watkins, Anne E., Vogels, Chantal B.F., Kalinich, Chaney C., Dellicour, Simon, Russell, Alexis, Kelly, John P., Shudt, Matthew, Plitnick, Jonathan, Schneider, Erasmus, Fitzsimmons, William J., Khullar, Gaurav, and Metti, Jessica
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SARS-CoV-2 , *COVID-19 , *PHYLOGEOGRAPHY , *INFECTIOUS disease transmission , *WORLD health - Abstract
The emergence and spread of SARS-CoV-2 lineage B.1.1.7, first detected in the United Kingdom, has become a global public health concern because of its increased transmissibility. Over 2,500 COVID-19 cases associated with this variant have been detected in the United States (US) since December 2020, but the extent of establishment is relatively unknown. Using travel, genomic, and diagnostic data, we highlight that the primary ports of entry for B.1.1.7 in the US were in New York, California, and Florida. Furthermore, we found evidence for many independent B.1.1.7 establishments starting in early December 2020, followed by interstate spread by the end of the month. Finally, we project that B.1.1.7 will be the dominant lineage in many states by mid- to late March. Thus, genomic surveillance for B.1.1.7 and other variants urgently needs to be enhanced to better inform the public health response. [Display omitted] • Flight data identify that NY, CA, and FL were high risk for importing B.1.1.7 • B.1.1.7 was introduced separately to multiple US states starting in December 2020 • Phylogenetic analysis shows evidence for domestic spread between regions in US • Exponential growth of B.1.1.7 projects that it will be the dominant lineage The SARS-CoV-2 variant B.1.1.7 was introduced to the US in early December 2020 and soon became established within many communities. The primary points of entry into the US are identified as New York, California, and Florida, and exponential growth in these states resulted in spread to neighboring states. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
18. NCBI's Virus Discovery Codeathon: Building "FIVE" —The Federated Index of Viral Experiments API Index.
- Author
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Martí-Carreras, Joan, Gener, Alejandro Rafael, Miller, Sierra D., Brito, Anderson F., Camacho, Christiam E., Connor, Ryan, Deboutte, Ward, Glickman, Cody, Kristensen, David M., Meyer, Wynn K., Modha, Sejal, Norris, Alexis L., Saha, Surya, Belford, Anna K., Biederstedt, Evan, Brister, James Rodney, Buchmann, Jan P., Cooley, Nicholas P., Edwards, Robert A., and Javkar, Kiran
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VIRAL genomes ,VIRAL variation ,GENOME size ,VIRUSES ,ACCESS to information - 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. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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19. Multiple Transmission Chains within COVID-19 Cluster, Connecticut, USA, 20201.
- Author
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Bart, Stephen M., Flaherty, Eileen, Alpert, Tara, Carlson, Sherry, Fasulo, Lisa, Earnest, Rebecca, White, Elizabeth B., Dickens, Noel, Brito, Anderson F., Grubaugh, Nathan D., Hadler, James L., and Sosa, Lynn E.
- Subjects
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COVID-19 , *SARS-CoV-2 , *PHYSICAL fitness centers , *RESPIRATORY infections - Abstract
In fall 2020, a coronavirus disease cluster comprising 16 cases occurred in Connecticut, USA. Epidemiologic and genomic evidence supported transmission among persons at a school and fitness center but not a workplace. The multiple transmission chains identified within this cluster highlight the necessity of a combined investigatory approach. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
20. Coast-to-Coast Spread of SARS-CoV-2 during the Early Epidemic in the United States.
- Author
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Fauver, Joseph R., Petrone, Mary E., Hodcroft, Emma B., Shioda, Kayoko, Ehrlich, Hanna Y., Watts, Alexander G., Vogels, Chantal B.F., Brito, Anderson F., Alpert, Tara, Muyombwe, Anthony, Razeq, Jafar, Downing, Randy, Cheemarla, Nagarjuna R., Wyllie, Anne L., Kalinich, Chaney C., Ott, Isabel M., Quick, Joshua, Loman, Nicholas J., Neugebauer, Karla M., and Greninger, Alexander L.
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SARS-CoV-2 , *COVID-19 pandemic , *INTERNATIONAL air travel , *COVID-19 , *TRAVEL restrictions - Abstract
The novel coronavirus SARS-CoV-2 was first detected in the Pacific Northwest region of the United States in January 2020, with subsequent COVID-19 outbreaks detected in all 50 states by early March. To uncover the sources of SARS-CoV-2 introductions and patterns of spread within the United States, we sequenced nine viral genomes from early reported COVID-19 patients in Connecticut. Our phylogenetic analysis places the majority of these genomes with viruses sequenced from Washington state. By coupling our genomic data with domestic and international travel patterns, we show that early SARS-CoV-2 transmission in Connecticut was likely driven by domestic introductions. Moreover, the risk of domestic importation to Connecticut exceeded that of international importation by mid-March regardless of our estimated effects of federal travel restrictions. This study provides evidence of widespread sustained transmission of SARS-CoV-2 within the United States and highlights the critical need for local surveillance. • Connecticut's COVID-19 outbreak resulted from multiple domestic virus introductions • SARS-CoV-2 genomic data indicate that coast-to-coast spread occurred in the United States • Risk of introduction by domestic air travel exceeded international travel in March • Restrictions on international travel did not significantly alter risk estimates Using genomics and air travel information, the spread of SARS-CoV-2 in the United States from coast to coast is shown to be more a consequence of domestic introductions than of international travel. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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- View/download PDF
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