Your search keyword '"Joel Scott-Herridge"' showing total 4 results

1. The Role of TEE in Diagnosing Hepatopulmonary Syndrome and Cryptogenic Cirrhosis

Author

Joel Scott-Herridge, Kapil Bhagirath, Surinder Janda, and Davinder S. Jassal

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

In the vast majority of cases, ongoing hypoxemia in a cirrhotic patient is usually hepatopulmonary syndrome (HPS) until proven otherwise; in this case, HPS was suspected prior to any known diagnosis of cirrhosis. This is the first reported case in the literature whereby HPS and cirrhosis were diagnosed after the fact, rather than with the preexisting knowledge of liver cirrhosis.

Published

2016

2. HIV-1 Subtypes and 5’LTR-Leader Sequence Variants Correlate with Seroconversion Status in Pumwani Sex Worker Cohort

Author

Raghavan Sampathkumar, Joel Scott-Herridge, Binhua Liang, Joshua Kimani, Francis A. Plummer, and Ma Luo

Subjects

HIV/AIDS, seroconversion, 5’LTR-leader sequence, genetic diversity, primer binding site sequences, splicing donor sequences, packaging signal, HIV subtypes, Microbiology, QR1-502

Abstract

Within the Pumwani sex worker cohort, a subgroup remains seronegative, despite frequent exposure to HIV-1; some of them seroconverted several years later. This study attempts to identify viral variations in 5’LTR-leader sequences (5’LTR-LS) that might contribute to the late seroconversion. The 5’LTR-LS contains sites essential for replication and genome packaging, viz, primer binding site (PBS), major splice donor (SD), and major packaging signal (PS). The 5’LTR-LS of 20 late seroconverters (LSC) and 122 early seroconverters (EC) were amplified, cloned, and sequenced. HelixTree 6.4.3 was employed to classify HIV subtypes and sequence variants based on seroconversion status. We find that HIV-1 subtypes A1.UG and D.UG were overrepresented in the viruses infecting the LSC (P < 0.0001). Specific variants of PBS (Pc < 0.0001), SD1 (Pc < 0.0001), and PS (Pc < 0.0001) were present only in the viral population from EC or LSC. Combinations of PBS [PBS-2 (Pc < 0.0001) and PBS-3 (Pc < 0.0001)] variants with specific SD sequences were only seen in LSC or EC. Combinations of A1.KE or D with specific PBS and SD variants were only present in LSC or EC (Pc < 0.0001). Furthermore, PBS variants only present in LSC co-clustered with PBS references utilizing tRNAArg; whereas, the PBS variants identified only in EC co-clustered with PBS references using tRNALys3 and its variants. This is the first report that specific PBS, SD1, and PS sequence variants within 5’LTR-LS are associated with HIV-1 seroconversion, and it could aid designing effective anti-HIV strategies.

Published

2017

3. A comparison of parallel pyrosequencing and sanger clone-based sequencing and its impact on the characterization of the genetic diversity of HIV-1.

Author

Binhua Liang, Ma Luo, Joel Scott-Herridge, Christina Semeniuk, Mark Mendoza, Rupert Capina, Brent Sheardown, Hezhao Ji, Joshua Kimani, Blake T Ball, Gary Van Domselaar, Morag Graham, Shane Tyler, Steven J M Jones, and Francis A Plummer

Subjects

Medicine, Science

Abstract

Pyrosequencing technology has the potential to rapidly sequence HIV-1 viral quasispecies without requiring the traditional approach of cloning. In this study, we investigated the utility of ultra-deep pyrosequencing to characterize genetic diversity of the HIV-1 gag quasispecies and assessed the possible contribution of pyrosequencing technology in studying HIV-1 biology and evolution.HIV-1 gag gene was amplified from 96 patients using nested PCR. The PCR products were cloned and sequenced using capillary based Sanger fluorescent dideoxy termination sequencing. The same PCR products were also directly sequenced using the 454 pyrosequencing technology. The two sequencing methods were evaluated for their ability to characterize quasispecies variation, and to reveal sites under host immune pressure for their putative functional significance. A total of 14,034 variations were identified by 454 pyrosequencing versus 3,632 variations by Sanger clone-based (SCB) sequencing. 11,050 of these variations were detected only by pyrosequencing. These undetected variations were located in the HIV-1 Gag region which is known to contain putative cytotoxic T lymphocyte (CTL) and neutralizing antibody epitopes, and sites related to virus assembly and packaging. Analysis of the positively selected sites derived by the two sequencing methods identified several differences. All of them were located within the CTL epitope regions.Ultra-deep pyrosequencing has proven to be a powerful tool for characterization of HIV-1 genetic diversity with enhanced sensitivity, efficiency, and accuracy. It also improved reliability of downstream evolutionary and functional analysis of HIV-1 quasispecies.

Published

2011

4. A Comparison of Parallel Pyrosequencing and Sanger Clone-Based Sequencing and Its Impact on the Characterization of the Genetic Diversity of HIV-1

Author

Brent B. Sheardown, Gary Van Domselaar, Joshua Kimani, Ma Luo, Mark Mendoza, Shane Tyler, Rupert Capina, Morag R. Graham, Hezhao Ji, Steven J.M. Jones, Christina Semeniuk, Blake T. Ball, Francis A. Plummer, Binhua Liang, and Joel Scott-Herridge

Subjects

Viral Diseases, Sequence analysis, lcsh:Medicine, Viral quasispecies, Biology, Microbiology, Polymerase Chain Reaction, law.invention, 03 medical and health sciences, Protein sequencing, Immunodeficiency Viruses, law, Virology, Genetic variation, lcsh:Science, Polymerase chain reaction, DNA Primers, 030304 developmental biology, Genetics, Cloning, Evolutionary Biology, 0303 health sciences, Genetic diversity, Multidisciplinary, Base Sequence, 030306 microbiology, lcsh:R, Computational Biology, HIV, Genetic Variation, virus diseases, Genomics, Comparative Genomics, Genes, gag, Functional Genomics, 3. Good health, Infectious Diseases, HIV-1, Medicine, Pyrosequencing, lcsh:Q, Sequence Analysis, Research Article

Abstract

Background Pyrosequencing technology has the potential to rapidly sequence HIV-1 viral quasispecies without requiring the traditional approach of cloning. In this study, we investigated the utility of ultra-deep pyrosequencing to characterize genetic diversity of the HIV-1 gag quasispecies and assessed the possible contribution of pyrosequencing technology in studying HIV-1 biology and evolution. Methodology/Principal Findings HIV-1 gag gene was amplified from 96 patients using nested PCR. The PCR products were cloned and sequenced using capillary based Sanger fluorescent dideoxy termination sequencing. The same PCR products were also directly sequenced using the 454 pyrosequencing technology. The two sequencing methods were evaluated for their ability to characterize quasispecies variation, and to reveal sites under host immune pressure for their putative functional significance. A total of 14,034 variations were identified by 454 pyrosequencing versus 3,632 variations by Sanger clone-based (SCB) sequencing. 11,050 of these variations were detected only by pyrosequencing. These undetected variations were located in the HIV-1 Gag region which is known to contain putative cytotoxic T lymphocyte (CTL) and neutralizing antibody epitopes, and sites related to virus assembly and packaging. Analysis of the positively selected sites derived by the two sequencing methods identified several differences. All of them were located within the CTL epitope regions. Conclusions/Significance Ultra-deep pyrosequencing has proven to be a powerful tool for characterization of HIV-1 genetic diversity with enhanced sensitivity, efficiency, and accuracy. It also improved reliability of downstream evolutionary and functional analysis of HIV-1 quasispecies.

Published

2011