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- Genre: Masters Thesis
- Creators: Arizona State University
- Creators: Chakraborty, Bijeta
- Member of: ASU Electronic Theses and Dissertations
Description
Recent studies have shown that human papillomavirus (HPV) plays a role in development of cancers, one of which is head and neck cancer. There is strong and consistent molecular evidence demonstrating that human papillomavirus (HPV) is an etiological cause of these oropharyngeal cancers. Despite the introduction of HPV vaccines, there is still an increase in human papillomavirus associated OPC (HPVOPC) and it is expected that the incidence of head and neck cancer, specifically oropharyngeal cancer (OPC) will increase. The aim of this study is to utilize human papillomavirus (HPV) seropositivity for rapid detection of HPV early specific antigen-antibodies using a lateral flow assay.
Human papillomavirus (HPV) 16 proteins of interest, E7, E6 and CE2 were expressed and purified in E. coli for detection of specific antibodies using lateral flow assay because viral and host factors impact the serologic responses to HPV early antigens in HPV-positive oropharyngeal cancer. 17 samples and 5 controls with already known antibody reactivity from ELISA analysis were selected for HPV serologic responses. The lateral flow strip was evaluated for its color band intensity using Image J software. Peak area was used to quantify the color intensity of the lateral flow strip. Out of the 17 samples, 11 (64.7%) showed high antibody levels to E7, 12 (70.6%) showed high Ab levels to E6 and 6 (35.3%) showed high Ab levels to CE2. Correlation coefficient between antibody detection by sight and ELISA for E7, CE2 and E6 were 0.6614, 0.4845 and 0.2372 respectively and correlation coefficient between lateral flow assay and ELISA for E7, CE2 and E6 were 0.3480, 0.1716 and 0.1644 respectively. This further proves patients or samples with HPV 16 oropharyngeal cancer have detectable antibodies to early E7, E6 and E2 proteins, which are potential biomarkers for HPV-associated oropharyngeal cancer.
Human papillomavirus (HPV) 16 proteins of interest, E7, E6 and CE2 were expressed and purified in E. coli for detection of specific antibodies using lateral flow assay because viral and host factors impact the serologic responses to HPV early antigens in HPV-positive oropharyngeal cancer. 17 samples and 5 controls with already known antibody reactivity from ELISA analysis were selected for HPV serologic responses. The lateral flow strip was evaluated for its color band intensity using Image J software. Peak area was used to quantify the color intensity of the lateral flow strip. Out of the 17 samples, 11 (64.7%) showed high antibody levels to E7, 12 (70.6%) showed high Ab levels to E6 and 6 (35.3%) showed high Ab levels to CE2. Correlation coefficient between antibody detection by sight and ELISA for E7, CE2 and E6 were 0.6614, 0.4845 and 0.2372 respectively and correlation coefficient between lateral flow assay and ELISA for E7, CE2 and E6 were 0.3480, 0.1716 and 0.1644 respectively. This further proves patients or samples with HPV 16 oropharyngeal cancer have detectable antibodies to early E7, E6 and E2 proteins, which are potential biomarkers for HPV-associated oropharyngeal cancer.
ContributorsLadipo, Evelyn (Author) / Anderson, Karen S (Thesis advisor) / Hogue, Brenda G (Committee member) / Hou, Ching-Wen (Committee member) / Arizona State University (Publisher)
Created2019
Description
Viruses infect organisms in all domains of life and are abundant entities in ecosystems. In particular, single-stranded DNA viruses have been found in a wide variety of hosts and ecosystems. Using a metagenomic approach, novel circular viruses have been identified in multiple environmental samples. This thesis focuses on viruses and virus dynamics from avian sources. As part of this thesis, a novel phapecoctavirus was identified in a pigeon cloacal swab. The phapecoctavirus is most closely related to Klebsiella phage ZCKP1, identified from a freshwater sample. Beyond this, this thesis addresses circoviruses, which are of interest due to disease they cause to avian species. Evolution of circovirus recombination was studied in a closed system of uninfected and infected pigeons. 178 genomes of pigeon circovirus were sequenced, and patterns of recombination determined. Seven genotypes were present in the population and genotype 4 was shown to be present in a majority of samples after the experiment was finished. Circoviruses were also identified in waterfowl feces and the ten genomes recovered represent two new circovirus species. Overall, the research described in this thesis helped to gain a deeper understanding of the diversity and evolution of circular DNA viruses associated with avian species.
ContributorsKhalifeh, Anthony (Author) / Varsani, Arvind (Thesis advisor) / Kraberger, Simona J (Committee member) / Dolby, Greer (Committee member) / Arizona State University (Publisher)
Created2021
Description
This project analyzed the sequencing results of 230 bat samples to investigatenovel Coronaviruses (CoVs) appearance. A bioinformatics workflow solution was developed to process the Next-Generation Sequencing (NGS) data to identify novel CoV genomes. A parallel computing scheme was implemented to enhance performance. Among the 230 bat samples, 14 samples previously tested positive for CoV appearance by a pan-CoV quantitative polymerase chain reaction (qPCR). The Illumina NGS techniques are used to generate the shotgun readings. With the newly developed bioinformatics pipeline, the sequencing reads from each bat sample, and a positive control sample were quality controlled and assembled to generate longer viral contigs. They then went through a Basic Local Alignment Search Tool X (BLASTx) query against a customized CoV database from the National Center for Biotechnology Information (NCBI) databases. After further filtering with BLASTx and megaBLAST against the NCBI nucleotide collection (nr/nt) database, the confirmed CoV contigs were used to build bootstrapped phylogenetic trees with several representative Alpha, Beta, and Gamma-CoV genomes. Two bat samples contained potentially novel CoV fragments corresponding to the Open Reading Frame 1ab (ORF1ab), ORF7, and Nucleocapsid (N) gene regions. The phylogenetic trees showed that the fragments are Alpha-CoVs, which are closely related to Eptesicus Bat Coronavirus, Pipistrellus Bat Coronavirus, and Tadarida Brasiliensis Bat Alphacoronavirus 1.
ContributorsMu, Tianchen Nil (Author) / Lim, Efrem EL (Thesis advisor) / Lee, Kookjin KL (Thesis advisor) / Chung, Yunro YC (Committee member) / Arizona State University (Publisher)
Created2023
Description
Z-DNA binding protein 1 (ZBP1) is an interferon-inducible protein that plays a crucial role in antiviral defense by recognizing Z-form nucleic acid (Z-NA), a left-handed conformer of double-stranded DNA/RNA. When ZBP1 binds to Z-NA, it can trigger programmed cell death pathways, including apoptosis and necroptosis, in collaboration with receptor interacting protein kinases 1 and 3 (RIPK1 and RIPK3). Z-NA positive viruses including poxviruses and influenza A virus (IAV) activate ZBP1-dependent cell death during replication. Little is known whether ZBP1 plays any role during Z-NA negative virus infection. Doxycycline-inducible A549 ACE2 Tet-On cells were constructed to express ZBP1 and were infected with Z-NA negative viruses. ZBP1-expressing cells infected with Sindbis virus (SINV), La Crosse virus (LACV), Vesicular stomatitis virus (VSV) and human coronavirus OC43 (hCoV-OC43) underwent extensive cell death, which could be rescued by a caspase inhibitor but not by JAK1/2 or RIPK1 kinase inhibitors. However, cell death was not observed upon Zika virus (ZIKV), Encephalomyocarditis virus (EMCV), Chikungunya virus (CHKV) or human coronavirus 229E (hCoV-229E) infection. ZBP1 expression did not impact the replication of all tested viruses. In addition, ZBP1-mediated cell death during infection depends on the Zα2 and RHIM1 domains and partially on the C-terminal domain. These findings suggest that Z-NA can be detected by the Zα2 domain to initiate cell death pathways during infection with some Z-NA negative viruses and that the RHIM1/C-terminal domains are necessary for ZBP1-induced cell death. Further research is needed to determine the Z-NA ligand and the precise mechanism of ZBP1-mediated antiviral responses and how they can be exploited for the development of novel antiviral therapies.
ContributorsLa Rosa, Bruno Andres (Author) / Li, Yize (Thesis advisor) / Jacobs, Bertram (Committee member) / Hogue, Brenda (Committee member) / Arizona State University (Publisher)
Created2023
Description
Detection technologies and physical methods used for separation of complex molecules can be effective tools in research when applied to bioparticles including, but not limited to,
bacteria, viruses, and proteins. Dielectrophoresis (DEP) is a technique that has been used in
microfluidics for separation and concentration of bioparticles, with the benefits of not requiring
custom primers, utilizing small sample sizes, and relatively quick separation times for rapid
identification of pathogens such as viruses. As demonstrated in this study, a DEP device using
polydimethylsiloxane (PDMS) as an insulator was used for the identification and separation of a
mouse hepatitis coronavirus (MHV), a model coronavirus that only infects mice. Results indicate
that, using 10 microliters of MHV test sample diluted in buffer, the virus can be identified and
separated within 30 seconds using DC voltage of 800 V.
Contributorsmcfadden, matthew (Author) / Hogue, Brenda G (Thesis advisor) / Hayes, Mark (Thesis advisor) / Christen, Jennifer B (Committee member) / Wang, Shaopeng (Committee member) / Arizona State University (Publisher)
Created2023