Your search keyword '"Karlyn M Dobritch"' showing total 2 results

1. The HIVToolbox 2 web system integrates sequence, structure, function and mutation analysis

Author

David P. Sargeant, Roxanne P. David, Alexandria Bartlett, Frederick A. Brown, Christy Strong, Timothy F. Rafalski, Viraj Rathnayake, Steven B. Brooks, Michael W. Hedden, Sandeep Deverasetty, Sean L. Tuggle, Karlyn M. Dobritch, Kiran R. Mathew, Sandy Yousif, Monika Chakarova, Austin Pomerantz, Martin R. Schiller, Horacio P. Guerra, Sarah Songao, Nemanja Novakovic, Noura Rezapour, David I. Dorsky, Josue Portillo, Nicholas R. Brandon, Sabyasachy Mistry, Kelvy S. Levitt, Flaviona Bufi, Dorothea Q. Maza, Izua J. Alaniz, Rma Kumra, and Ray Matti

Subjects

Computer and Information Sciences, Proteases, Anti-HIV Agents, Protein Conformation, DNA Mutational Analysis, Human Immunodeficiency Virus Proteins, lcsh:Medicine, Biological Data Management, Viral diseases, Biology, DNA-binding protein, Epitope, Protein–protein interaction, Computer Software, Protein sequencing, Protein structure, Sequence Analysis, Protein, Databases, Genetic, Drug Resistance, Viral, Humans, Amino Acid Sequence, lcsh:Science, Medicine and health sciences, Genetics, Internet, Binding Sites, Multidisciplinary, lcsh:R, Biology and Life Sciences, Computational Biology, HIV, 3. Good health, Mutation, Mutation testing, Infectious diseases, lcsh:Q, Protein Multimerization, Protein Processing, Post-Translational, Software, Function (biology), Research Article, HIV infections

Abstract

There is enormous interest in studying HIV pathogenesis for improving the treatment of patients with HIV infection. HIV infection has become one of the best-studied systems for understanding how a virus can hijack a cell. To help facilitate discovery, we previously built HIVToolbox, a web system for visual data mining. The original HIVToolbox integrated information for HIV protein sequence, structure, functional sites, and sequence conservation. This web system has been used for almost 40,000 searches. We report improvements to HIVToolbox including new functions and workflows, data updates, and updates for ease of use. HIVToolbox2, is an improvement over HIVToolbox with new functions. HIVToolbox2 has new functionalities focused on HIV pathogenesis including drug-binding sites, drug-resistance mutations, and immune epitopes. The integrated, interactive view enables visual mining to generate hypotheses that are not readily revealed by other approaches. Most HIV proteins form multimers, and there are posttranslational modification and protein-protein interaction sites at many of these multimerization interfaces. Analysis of protease drug binding sites reveals an anatomy of drug resistance with different types of drug-resistance mutations regionally localized on the surface of protease. Some of these drug-resistance mutations have a high prevalence in specific HIV-1 M subtypes. Finally, consolidation of Tat functional sites reveals a hotspot region where there appear to be 30 interactions or posttranslational modifications. A cursory analysis with HIVToolbox2 has helped to identify several global patterns for HIV proteins. An initial analysis with this tool identifies homomultimerization of almost all HIV proteins, functional sites that overlap with multimerization sites, a global drug resistance anatomy for HIV protease, and specific distributions of some DRMs in specific HIV M subtypes. HIVToolbox2 is an open-access web application available at [http://hivtoolbox2.bio-toolkit.com].

Published

2014

2. The Geogenomic Mutational Atlas of Pathogens (GoMAP) web system

Author

Viraj Rathnayake, Monika Chakarova, Nemanja Novakovic, Frederick A. Brown, Sarah Songao, Dorothea Q. Maza, Kelvy S. Levit, Helen J. Wing, Martin R. Schiller, Nicholas R. Brandon, Steve G. Schooler, David P. Sargeant, Ray Matti, Christy Strong, Horacio P. Guerra, Roxanne P. David, Sabyasachy Mistry, Michael W. Hedden, Sandeep Deverasetty, Kiran R. Mathew, Flaviona Bufi, Christian A. Ross, Izua J. Alaniz, Sean L. Tuggle, Alexandria Bartlett, Karlyn M. Dobritch, Timothy F. Rafalski, Noura Rezapour, Steven B. Brooks, Sandy Yousif, and Austin Pomerantz

Subjects

Viral Diseases, lcsh:Medicine, Social Sciences, HIV Infections, Drug resistance, Web Browser, medicine.disease_cause, Global Health, Genome, Computer Applications, Immunodeficiency Viruses, Databases, Genetic, Global health, Medicine and Health Sciences, lcsh:Science, Genetics, Mutation, Multidisciplinary, Geography, Antimicrobials, Genomics, Antivirals, 3. Good health, Infectious Diseases, Biogeography, Medical Microbiology, Population Surveillance, Viral Pathogens, Web-Based Applications, HIV drug resistance, Research Article, Computer and Information Sciences, Biology, Communicable Diseases, Microbiology, Antibiotic resistance, Microbial Control, Virology, medicine, Web application, Humans, Microbial Pathogens, Evolutionary Biology, business.industry, lcsh:R, Biology and Life Sciences, Computational Biology, HIV, Genome, Microbial, Earth Sciences, lcsh:Q, business, Population Genetics

Abstract

We present a new approach for pathogen surveillance we call Geogenomics. Geogenomics examines the geographic distribution of the genomes of pathogens, with a particular emphasis on those mutations that give rise to drug resistance. We engineered a new web system called Geogenomic Mutational Atlas of Pathogens (GoMAP) that enables investigation of the global distribution of individual drug resistance mutations. As a test case we examined mutations associated with HIV resistance to FDA-approved antiretroviral drugs. GoMAP-HIV makes use of existing public drug resistance and HIV protein sequence data to examine the distribution of 872 drug resistance mutations in ∼ 502,000 sequences for many countries in the world. We also implemented a broadened classification scheme for HIV drug resistance mutations. Several patterns for geographic distributions of resistance mutations were identified by visual mining using this web tool. GoMAP-HIV is an open access web application available at http://www.bio-toolkit.com/GoMap/project/

Published

2013