Your search keyword '"Ryan Velazquez"' showing total 7 results

1. Correction for Rando et al., 'Pathogenesis, Symptomatology, and Transmission of SARS-CoV-2 through Analysis of Viral Genomics and Structure'

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Author

Halie M. Rando, Adam L. MacLean, Alexandra J. Lee, Ronan Lordan, Sandipan Ray, Vikas Bansal, Ashwin N. Skelly, Elizabeth Sell, John J. Dziak, Lamonica Shinholster, Lucy D’Agostino McGowan, Marouen Ben Guebila, Nils Wellhausen, Sergey Knyazev, Simina M. Boca, Stephen Capone, Yanjun Qi, YoSon Park, David Mai, Yuchen Sun, Joel D. Boerckel, Christian Brueffer, James Brian Byrd, Jeremy P. Kamil, Jinhui Wang, Ryan Velazquez, Gregory L. Szeto, John P. Barton, Rishi Raj Goel, Serghei Mangul, Tiago Lubiana, Anthony Gitter, and Casey S. Greene more...

Subjects

Microbiology, QR1-502

Published

2022

2. Pathogenesis, Symptomatology, and Transmission of SARS-CoV-2 through Analysis of Viral Genomics and Structure

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Author

Halie M. Rando, Adam L. MacLean, Alexandra J. Lee, Ronan Lordan, Sandipan Ray, Vikas Bansal, Ashwin N. Skelly, Elizabeth Sell, John J. Dziak, Lamonica Shinholster, Lucy D’Agostino McGowan, Marouen Ben Guebila, Nils Wellhausen, Sergey Knyazev, Simina M. Boca, Stephen Capone, Yanjun Qi, YoSon Park, David Mai, Yuchen Sun, Joel D. Boerckel, Christian Brueffer, James Brian Byrd, Jeremy P. Kamil, Jinhui Wang, Ryan Velazquez, Gregory L. Szeto, John P. Barton, Rishi Raj Goel, Serghei Mangul, Tiago Lubiana, Anthony Gitter, and Casey S. Greene more...

Subjects

Microbiology, QR1-502

Abstract

COVID-19 involves a number of organ systems and can present with a wide range of symptoms. From how the virus infects cells to how it spreads between people, the available research suggests that these patterns are very similar to those seen in the closely related viruses SARS-CoV-1 and possibly Middle East respiratory syndrome-related CoV (MERS-CoV). more...

Published

2021

3. An Open-Publishing Response to the COVID-19 Infodemic.

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Author

Halie M. Rando, Simina M. Boca, Lucy D'Agostino McGowan, Daniel S. Himmelstein, Michael P. Robson, Vincent Rubinetti, Ryan Velazquez, Casey S. Greene, and Anthony Gitter

Published

2021

4. An Open-Publishing Response to the COVID-19 Infodemic

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Author

Halie M, Rando, Simina M, Boca, Lucy D'Agostino, McGowan, Daniel S, Himmelstein, Michael P, Robson, Vincent, Rubinetti, Ryan, Velazquez, Casey S, Greene, and Anthony, Gitter

Subjects

open source, open publishing, COVID-19, data integration, Article, living document, Manubot

Abstract

The COVID-19 pandemic catalyzed the rapid dissemination of papers and preprints investigating the disease and its associated virus, SARS-CoV-2. The multifaceted nature of COVID-19 demands a multidisciplinary approach, but the urgency of the crisis combined with the need for social distancing measures present unique challenges to collaborative science. We applied a massive online open publishing approach to this problem using Manubot. Through GitHub, collaborators summarized and critiqued COVID-19 literature, creating a review manuscript. Manubot automatically compiled citation information for referenced preprints, journal publications, websites, and clinical trials. Continuous integration workflows retrieved up-to-date data from online sources nightly, regenerating some of the manuscript's figures and statistics. Manubot rendered the manuscript into PDF, HTML, LaTeX, and DOCX outputs, immediately updating the version available online upon the integration of new content. Through this effort, we organized over 50 scientists from a range of backgrounds who evaluated over 1,500 sources and developed seven literature reviews. While many efforts from the computational community have focused on mining COVID-19 literature, our project illustrates the power of open publishing to organize both technical and non-technical scientists to aggregate and disseminate information in response to an evolving crisis. more...

Published

2022

5. Human HspB1, HspB3, HspB5 and HspB8: Shaping these Disease Factors during Vertebrate Evolution

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Author

Rainer Benndorf, Ryan Velazquez, Jordan D. Zehr, Sergei L. Kosakovsky Pond, Jody L. Martin, and Alexander G. Lucaci

Subjects

Biochemistry & Molecular Biology, Myopathy, Small, Biochemistry, Disease-associated missense mutation, Purifying selection, Genetics, Animals, Humans, 2.1 Biological and endogenous factors, alpha-Crystallins, Aetiology, Heat-Shock Proteins, Genetic dominance, alpha-Crystallin B Chain, Cell Biology, Heat-Shock Proteins, Small, Neuropathy, Alpha B-crystallin, Vertebrates, Mutation, Generic health relevance, Biochemistry and Cell Biology, Genotype-phenotype relationship, Molecular Chaperones, Biotechnology

Abstract

Small heat shock proteins (sHSPs) emerged early in evolution and occur in all domains of life and nearly in all species, including humans. Mutations in four sHSPs (HspB1, HspB3, HspB5, HspB8) are associated with neuromuscular disorders. The aim of this study is to investigate the evolutionary forces shaping these sHSPs during vertebrate evolution. We performed comparative evolutionary analyses on a set of orthologous sHSP sequences, based on the ratio of non-synonymous: synonymous substitution rates for each codon. We found that these sHSPs had been historically exposed to different degrees of purifying selection, decreasing in this order: HspB8 > HspB1, HspB5 > HspB3. Within each sHSP, regions with different degrees of purifying selection can be discerned, resulting in characteristic selective pressure profiles. The conserved α-crystallin domains were exposed to the most stringent purifying selection compared to the flanking regions, supporting a 'dimorphic pattern' of evolution. Thus, during vertebrate evolution the different sequence partitions were exposed to different and measurable degrees of selective pressures. Among the disease-associated mutations, most are missense mutations primarily in HspB1 and to a lesser extent in the other sHSPs. Our data provide an explanation for this disparate incidence. Contrary to the expectation, most missense mutations cause dominant disease phenotypes. Theoretical considerations support a connection between the historic exposure of these sHSP genes to a high degree of purifying selection and the unusual prevalence of genetic dominance of the associated disease phenotypes. Our study puts the genetics of inheritable sHSP-borne diseases into the context of vertebrate evolution. more...

Published

2022

6. HyPhy 2.5—A Customizable Platform for Evolutionary Hypothesis Testing Using Phylogenies

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Author

Brittany Rife Magalis, Stephanie J. Spielman, Ben Murrell, Sadie R Wisotsky, Simon D. W. Frost, Dave Bouvier, Ryan Velazquez, Art F. Y. Poon, Spencer V. Muse, N. Lance Hepler, Sergei L Kosakovsky Pond, Stephen D. Shank, Anton Nekrutenko, and Steven Weaver more...

Subjects

Natural selection, Estimation theory, business.industry, Stability (learning theory), Usability, Biology, Machine learning, computer.software_genre, Resources, Backward compatibility, Genetic Techniques, Genetics, Statistical inference, Artificial intelligence, business, Molecular Biology, computer, Phylogeny, Software, Ecology, Evolution, Behavior and Systematics, Coevolution, Statistical hypothesis testing

Abstract

HYpothesis testing using PHYlogenies (HyPhy) is a scriptable, open-source package for fitting a broad range of evolutionary models to multiple sequence alignments, and for conducting subsequent parameter estimation and hypothesis testing, primarily in the maximum likelihood statistical framework. It has become a popular choice for characterizing various aspects of the evolutionary process: natural selection, evolutionary rates, recombination, and coevolution. The 2.5 release (available from www.hyphy.org) includes a completely re-engineered computational core and analysis library that introduces new classes of evolutionary models and statistical tests, delivers substantial performance and stability enhancements, improves usability, streamlines end-to-end analysis workflows, makes it easier to develop custom analyses, and is mostly backward compatible with previous HyPhy releases. more...

Published

2019

7. Pathogenesis, Symptomatology, and Transmission of SARS-CoV-2 through Analysis of Viral Genomics and Structure.

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Author

Rando, Halie M, Rando, Halie M, MacLean, Adam L, Lee, Alexandra J, Lordan, Ronan, Ray, Sandipan, Bansal, Vikas, Skelly, Ashwin N, Sell, Elizabeth, Dziak, John J, Shinholster, Lamonica, D'Agostino McGowan, Lucy, Ben Guebila, Marouen, Wellhausen, Nils, Knyazev, Sergey, Boca, Simina M, Capone, Stephen, Qi, Yanjun, Park, YoSon, Mai, David, Sun, Yuchen, Boerckel, Joel D, Brueffer, Christian, Byrd, James Brian, Kamil, Jeremy P, Wang, Jinhui, Velazquez, Ryan, Szeto, Gregory L, Barton, John P, Goel, Rishi Raj, Mangul, Serghei, Lubiana, Tiago, COVID-19 Review Consortium Vikas Bansal, John P. Barton, Simina M. Boca, Joel D. Boerckel, Christian Brueffer, James Brian Byrd, Stephen Capone, Shikta Das, Anna Ada Dattoli, John J. Dziak, Jeffrey M. Field, Soumita Ghosh, Anthony Gitter, Rishi Raj Goel, Casey S. Greene, Marouen Ben Guebila, Daniel S. Himmelstein, Fengling Hu, Nafisa M. Jadavji, Jeremy P. Kamil, Sergey Knyazev, Likhitha Kolla, Alexandra J. Lee, Ronan Lordan, Tiago Lubiana, Temitayo Lukan, Adam L. MacLean, David Mai, Serghei Mangul, David Manheim, Lucy D’Agostino McGowan, Amruta Naik, YoSon Park, Dimitri Perrin, Yanjun Qi, Diane N. Rafizadeh, Bharath Ramsundar, Halie M. Rando, Sandipan Ray, Michael P. Robson, Vincent Rubinetti, Elizabeth Sell, Lamonica Shinholster, Ashwin N. Skelly, Yuchen Sun, Yusha Sun, Gregory L. Szeto, Ryan Velazquez, Jinhui Wang, Nils Wellhausen, Gitter, Anthony, Greene, Casey S, Rando, Halie M, Rando, Halie M, MacLean, Adam L, Lee, Alexandra J, Lordan, Ronan, Ray, Sandipan, Bansal, Vikas, Skelly, Ashwin N, Sell, Elizabeth, Dziak, John J, Shinholster, Lamonica, D'Agostino McGowan, Lucy, Ben Guebila, Marouen, Wellhausen, Nils, Knyazev, Sergey, Boca, Simina M, Capone, Stephen, Qi, Yanjun, Park, YoSon, Mai, David, Sun, Yuchen, Boerckel, Joel D, Brueffer, Christian, Byrd, James Brian, Kamil, Jeremy P, Wang, Jinhui, Velazquez, Ryan, Szeto, Gregory L, Barton, John P, Goel, Rishi Raj, Mangul, Serghei, Lubiana, Tiago, COVID-19 Review Consortium Vikas Bansal, John P. Barton, Simina M. Boca, Joel D. Boerckel, Christian Brueffer, James Brian Byrd, Stephen Capone, Shikta Das, Anna Ada Dattoli, John J. Dziak, Jeffrey M. Field, Soumita Ghosh, Anthony Gitter, Rishi Raj Goel, Casey S. Greene, Marouen Ben Guebila, Daniel S. Himmelstein, Fengling Hu, Nafisa M. Jadavji, Jeremy P. Kamil, Sergey Knyazev, Likhitha Kolla, Alexandra J. Lee, Ronan Lordan, Tiago Lubiana, Temitayo Lukan, Adam L. MacLean, David Mai, Serghei Mangul, David Manheim, Lucy D’Agostino McGowan, Amruta Naik, YoSon Park, Dimitri Perrin, Yanjun Qi, Diane N. Rafizadeh, Bharath Ramsundar, Halie M. Rando, Sandipan Ray, Michael P. Robson, Vincent Rubinetti, Elizabeth Sell, Lamonica Shinholster, Ashwin N. Skelly, Yuchen Sun, Yusha Sun, Gregory L. Szeto, Ryan Velazquez, Jinhui Wang, Nils Wellhausen, Gitter, Anthony, and Greene, Casey S more...

Abstract

The novel coronavirus SARS-CoV-2, which emerged in late 2019, has since spread around the world and infected hundreds of millions of people with coronavirus disease 2019 (COVID-19). While this viral species was unknown prior to January 2020, its similarity to other coronaviruses that infect humans has allowed for rapid insight into the mechanisms that it uses to infect human hosts, as well as the ways in which the human immune system can respond. Here, we contextualize SARS-CoV-2 among other coronaviruses and identify what is known and what can be inferred about its behavior once inside a human host. Because the genomic content of coronaviruses, which specifies the virus's structure, is highly conserved, early genomic analysis provided a significant head start in predicting viral pathogenesis and in understanding potential differences among variants. The pathogenesis of the virus offers insights into symptomatology, transmission, and individual susceptibility. Additionally, prior research into interactions between the human immune system and coronaviruses has identified how these viruses can evade the immune system's protective mechanisms. We also explore systems-level research into the regulatory and proteomic effects of SARS-CoV-2 infection and the immune response. Understanding the structure and behavior of the virus serves to contextualize the many facets of the COVID-19 pandemic and can influence efforts to control the virus and treat the disease. IMPORTANCE COVID-19 involves a number of organ systems and can present with a wide range of symptoms. From how the virus infects cells to how it spreads between people, the available research suggests that these patterns are very similar to those seen in the closely related viruses SARS-CoV-1 and possibly Middle East respiratory syndrome-related CoV (MERS-CoV). Understanding the pathogenesis of the SARS-CoV-2 virus also contextualizes how the different biological systems affected by COVID-19 connect. Exploring the str more...

Published

2021