Your search keyword '"Fowler, Anna"' showing total 44 results

1. Benchmarking UMI-aware and standard variant callers for low frequency ctDNA variant detection

Author

Maruzani, Rugare, Brierley, Liam, Jorgensen, Andrea, and Fowler, Anna

Published

2024

2. Genomic profiling of idiopathic peri-hilar cholangiocarcinoma reveals new targets and mutational pathways

Author

Quinn, Leonard M., Haldenby, Sam, Antzcak, Philip, Fowler, Anna, Bullock, Katie, Kenny, John, Gilbert, Timothy, Andrews, Timothy, Diaz-Nieto, Rafael, Fenwick, Stephen, Jones, Robert, Costello-Goldring, Eithne, Poston, Graeme, Greenhalf, William, Palmer, Daniel, Malik, Hassan, and Goldring, Chris

Published

2023

3. Hybrid Fixation for Total Hip Arthroplasty Showed Improved Survival Over Cemented and Uncemented Fixation: A Single-Center Survival Analysis of 2156 Hips at 12-18 Years

Author

Fowler, Anna-Kate, Gray, Andrew R., and Gwynne-Jones, David P.

Published

2019

4. Bayesian biclustering algorithms and their application to gene expression data

Author

Fowler, Anna, Heard, Nicholas, and Adams, Niall

Subjects

510

Abstract

Biclustering identifies subsets of rows and columns of a data matrix which are similar, revealing an underlying structure which may be obscured when clustering either rows or columns independently. Gene expression data sets typically contain measurements from thousands of genes for a comparatively small number of samples, or time points. Therefore, biclustering models and algorithms need to be robust to imbalanced dimensions if they are to be effectively applied to gene expression data. In this thesis, we develop biclustering algorithms for application to gene expression data. A novel, agglomerative biclustering algorithm for application to a data matrix containing observations from a far larger number of genes than samples is introduced. Variable selection is included in this algorithm, allowing sample clusters to be based on only the discriminating gene clusters. This algorithm is developed to ensure a fast computation time and the effect of having a far larger number of genes than samples is examined. Dynamic clusters which split and merge over time are introduced for time series data; these allow cluster memberships to be time dependent, forming biclusters of genes or samples and time points. Reversible Jump MCMC methods are used to identify these clusters, and alternative proposal schemes are considered to improve acceptance rates and overall performance of the algorithm. Combining these two ideas produces biclusters of genes and samples which split and merge over time, identifying co-regulated subsets of genes, samples and time points.

Published

2013

5. Inferring B cell specificity for vaccines using a Bayesian mixture model

Author

Fowler, Anna, Galson, Jacob D., Trück, Johannes, Kelly, Dominic F., and Lunter, Gerton

Published

2020

6. An Interpretable Classification Model Using Gluten-Specific TCR Sequences Shows Diagnostic Potential in Coeliac Disease.

Author

Fowler, Anna, FitzPatrick, Michael, Shanmugarasa, Aberami, Ibrahim, Amro Sayed Fadel, Kockelbergh, Hannah, Yang, Han-Chieh, Williams-Walker, Amelia, Luu Hoang, Kim Ngan, Evans, Shelley, Provine, Nicholas, Klenerman, Paul, and Soilleux, Elizabeth J.

Subjects

*CELIAC disease, *GLUTEN-free diet, *MACHINE learning, *NUCLEOTIDE sequencing, *GLUTEN, *DIAGNOSIS methods, *T cells

Abstract

Coeliac disease (CeD) is a T-cell mediated enteropathy triggered by dietary gluten which remains substantially under-diagnosed around the world. The diagnostic gold-standard requires histological assessment of intestinal biopsies taken at endoscopy while consuming a gluten-containing diet. However, there is a lack of concordance between pathologists in histological assessment, and both endoscopy and gluten challenge are burdensome and unpleasant for patients. Identification of gluten-specific T-cell receptors (TCRs) in the TCR repertoire could provide a less subjective diagnostic test, and potentially remove the need to consume gluten. We review published gluten-specific TCR sequences, and develop an interpretable machine learning model to investigate their diagnostic potential. To investigate this, we sequenced the TCR repertoires of mucosal CD4+ T cells from 20 patients with and without CeD. These data were used as a training dataset to develop the model, then an independently published dataset of 20 patients was used as the testing dataset. We determined that this model has a training accuracy of 100% and testing accuracy of 80% for the diagnosis of CeD, including in patients on a gluten-free diet (GFD). We identified 20 CD4+ TCR sequences with the highest diagnostic potential for CeD. The sequences identified here have the potential to provide an objective diagnostic test for CeD, which does not require the consumption of gluten. [ABSTRACT FROM AUTHOR]

Published

2023

7. Less than full time training : examining the impact on the workforce

Author

Evans, Carolyn, Fowler, Anna, Johnston, Carolyn, and Randive, Seema

Published

2015

8. Genetic Insights from Consanguineous Cardiomyopathy Families.

Author

Maurer, Constance, Boleti, Olga, Najarzadeh Torbati, Paria, Norouzi, Farzaneh, Fowler, Anna Nicole Rebekah, Minaee, Shima, Salih, Khalid Hama, Taherpour, Mehdi, Birjandi, Hassan, Alizadeh, Behzad, Salih, Aso Faeq, Bijari, Moniba, Houlden, Henry, Pittman, Alan Michael, Maroofian, Reza, Almashham, Yahya H., Karimiani, Ehsan Ghayoor, Kaski, Juan Pablo, Faqeih, Eissa Ali, and Vakilian, Farveh

Subjects

CARDIOMYOPATHIES, CARDIAC arrest, DILATED cardiomyopathy, MISSENSE mutation, HEART failure

Abstract

Inherited cardiomyopathies are a prevalent cause of heart failure and sudden cardiac death. Both hypertrophic (HCM) and dilated cardiomyopathy (DCM) are genetically heterogeneous and typically present with an autosomal dominant mode of transmission. Whole exome sequencing and autozygosity mapping was carried out in eight un-related probands from consanguineous Middle Eastern families presenting with HCM/DCM followed by bioinformatic and co-segregation analysis to predict the potential pathogenicity of candidate variants. We identified homozygous missense variants in TNNI3K, DSP, and RBCK1 linked with a dilated phenotype, in NRAP linked with a mixed phenotype of dilated/hypertrophic, and in KLHL24 linked with a mixed phenotype of dilated/hypertrophic and non-compaction features. Co-segregation analysis in family members confirmed autosomal recessive inheritance presenting in early childhood/early adulthood. Our findings add to the mutational spectrum of recessive cardiomyopathies, supporting inclusion of KLHL24, NRAP and RBCK1 as disease-causing genes. We also provide evidence for novel (recessive) modes of inheritance of a well-established gene TNNI3K and expand our knowledge of the clinical heterogeneity of cardiomyopathies. A greater understanding of the genetic causes of recessive cardiomyopathies has major implications for diagnosis and screening, particularly in underrepresented populations, such as those of the Middle East. [ABSTRACT FROM AUTHOR]

Published

2023

9. BCR repertoire sequencing: different patterns of B-cell activation after two Meningococcal vaccines

Author

Galson, Jacob D, Clutterbuck, Elizabeth A, Trück, Johannes, Ramasamy, Maheshi N, Münz, Márton, Fowler, Anna, Cerundolo, Vincenzo, Pollard, Andrew J, Lunter, Gerton, and Kelly, Dominic F

Published

2015

10. Use of machine learning to identify a T cell response to SARS-CoV-2

Author

Shoukat, M. Saad, Foers, Andrew D., Woodmansey, Stephen, Evans, Shelley C., Fowler, Anna, and Soilleux, Elizabeth J.

Published

2021

11. The expanded taxpayer confidentiality privilege: A review and assessment of IRC section 7525

Author

Bauman, Christine C. and Fowler, Anna C.

Published

2002

12. Impaired one carbon metabolism and DNA methylation in alcohol toxicity

Author

Kruman, Inna I. and Fowler, Anna-Kate

Published

2014

13. C-Reactive Protein as a Prognostic Marker After Lacunar Stroke: Levels of Inflammatory Markers in the Treatment of Stroke Study

Author

Elkind, Mitchell S.V., Luna, Jorge M., McClure, Leslie A., Zhang, Yu, Coffey, Christopher S., Roldan, Ana, Del Brutto, Oscar H., Pretell, Edwin Javier, Pettigrew, L. Creed, Meyer, Brett C., Tapia, Jorge, White, Carole, Benavente, Oscar R., Pettigrew, Creed, Vaishnav, Anand, Sawaya, Peter, Fowler, Anna, Hughes, Nedda, Rice, Johnya, Vanderpool, Kathy, Meyer, Brett, Jackson, Christy, Gamble, Paul, Kelly, Nancy, Warner, Janet, Bell, Jo, Meissner, Irene, Graves, John, Herzig, Deb, Covalt, Jody, Cruz-Flores, Salvador, Walden, H. Douglas, Holzemer, Eve, Coull, Bruce, Howard, Lien, Malekniazi, Mina, VanSkiver, Melissa, Bruck, Denise, Redman, Stacey, Hanna, Joseph, Zipp, Thomas, Bailey, Scott, Cook, Dana, Liskay, Alice, Simcox, Dana, Kappler, Joan, Demaerschalk, Bart, Hogan, Michael, Wochos, Daniel, Wieser, Judith, Cleary, Barbara, Wood, Lori, Katramados, Angelo, Silver, Brian, Yee, Jerry, Aiello, Krisy, Wilson, Kathleen, McCarthy, Sharon, Kase, Carlos, Gavras, Irene, Lau, Helena, Ogrodnik, Matt, Allen, Nancy, Anderson, David, Grimm, Richard, Brauer, Donna, Naritoku, Dean, Zweifler, Richard, Culpepper, Michael, Parnell, Mel, Yunker, Robin, Boots, Kelly, Drinkard, Renay, Backlin, Rachel, Elkind, Mitch, Crew, Russell John, Radhakrishan, Jai, Corporan, Tania E., Diaz, Julisa, Aragon, Rebeca, Benavente, Oscar, Hart, Robert, Pergola, Pablo, Palacio, Santiago, Castro, Irma, Farias, Arlene, Roldan, Ana, Mirsen, Tom, McAllister, Susan, Bastien, Arnaud, Niblack, Patricia, Sundararajan, Sophia, Rahman, Mahboob, Horvath, Tom, Korosec, David, Murphy, Chris, Lutsep, Helmi, Girard, Don, Seisler, Kali, Cingel, Megan, Ross, Megan, Stone, Rachel, Larsen, Darren, Doherty, Ann, Book, Diane, Eapen, Sunu, Grimm, Clarence, Blaney, Barbara, Rozman, Stephanie, Gaertner, Linda, Bradenburg, Erin, Loomis, Laura, Monarch-Cotton, Jolene, Ravavelli-Meyer, Jean, Golembieski, Anna, Romano, José, Ortiz, Gustavo, del Carmen Lichtenberger, Maria, Johnson, Mark, Liu, Yinghui, Goldsteen, Robert, Blair, April, Wright, Gregg, Gathua, Naomie, Jacoby, Michael, Jones, David, DeFrancisco, Jeffrey, Hamm, Theresa, Burgin, Scott W., Hollander, Joshua, Polashenski, Walter, Wallace, Patricia, Weber, Cheryl, Greenberg, Jason, Lennihan, Laura, King, Marjorie, Tenteromano, Laura, Pereira, Lorainne, Ching, Marilou, Sawyer, Robert, Parkes, Kathy, Conover, Cheryl, Weinberger, Jesse, Wright, Lewis, Burch, Dorothy, Benesch, Curtis, Bisognano, John, Leonhardt, Ann, Zentner, Justine, Hildreth, Molly, Karanjia, Percy, Murali, Narayana, Dart, Richard, Mancl, Kathleen, Lefkowitz, David, Pavel, Levy, Buchheimer, Nancy, Vaughn, Sara, Smith, Emily, Satterfield, Jean, Van Stavern, Renee, Brown, Angela, Serna, Jannie, Newgent, Jill, Naylor, Julie, Carpenter, Laura, Shuab, Ashfaq, Khan, Khurshid, Dean, Naeen, Herbert, Frederika, Kastelic, Karen, Atkinson, Richard, Lieberman, Roger, Carter, Teresa, Zrelak, Pat, Kenney, Nola, Logan, William, Carpenter, David, Schroer, Sally, Berger, Leo, Brunet, Sylvain, Pontbriand, Johanne, Mainville, Martine, Racicot, Denise, Côté, Robert, Green, Laurence, Wadup, Lisa, Fontaine, Anne-Marie, Tapia, Jorge, Godoy, Ivan Esteban, Valdes, Marcela, Matamala, Gonzalo, Goecke, Helmut, Parra, Marcela, Pozo, Jessica, del Brutto, Oscar, Santibáñez, Rocio, Lara, Joffre, Zambrano, Mauricio, Ruiz Sandoval, José Luis, Vásquez, Eduardo Salcido, Ruiz, Carmen, Arauz, Antonio, Cervantes, G. Amin, Leyva, Adolfo, Camacho, Itzel, Pretell, Edwin Javier, Valdivia, José, Pretell, Marissa, Leal, Joaquín Serena, Castellanos, Mar, Cruz, Verónica, Cepeda, Mercè, Arboix, Adrià, Pelegrí, Antoni, Blanco, Lorena, Borrego, Francisco Rubio, Gudiol, Francisco, Gomis, Meritxell, Arenillas, Juan, Dávalos, Antonio, Suñol, Ana, Reverté, Silvia, Roquer, Jaume, Serrano, Ana Oliveras, Conde, Jordi Jiménez, Rodríguez, Ana, Romeral, Gemma, Sánchez, José Castillo, González, Miguel Blanco, Rodríguez, Manuel, Jiménez, Isabel, Rodríguez, Jaime, McClure, Leslie, Coffey, Christopher, Szychowski, Jeff, Howard, George, Katholi, Charles, Zhang, Yu, Peri, Kalyani, Allcorn, Charles, Mailhot, Richard, Irby, Lisa, Guyton, Fekisha, Sewell, Mary Jo, Benavente, Oscar, Hart, Robert, Pergola, Pablo, Roldan, Ana, Benavente, Marie-France, White, Carole, Robu, Camilla, Kelly, Che, Talbert, Robert, Martinez, Eduardo, Bazan, Carlos, Pergola, Gabriela, Pearce, Lesly, Costello, Raymond, Jacova, Claudia, Camelia, Luisa, Mendoza, Crystal, Pratt, Brandy, Holliday, Steve, Elkind, Mitchell S.V., and Luna, Jorge

Published

2014

14. Bioinformatics Analyses Reveal Age-Specific Neuroimmune Modulation as a Target for Treatment of High Ethanol Drinking

Author

Agrawal, Rajiv G., Owen, Julie A., Levin, Patricia S., Hewetson, Aveline, Berman, Ari E., Franklin, Scott R., Hogue, Ryan J., Chen, Yukun, Walz, Chris, Colvard, Benjamin D., Nguyen, Jonathan, Velasquez, Oscar, Al-Hasan, Yazan, Blednov, Yuri A., Fowler, Anna-Kate, Syapin, Peter J., and Bergeson, Susan E.

Published

2014

15. Utility of Bulk T-Cell Receptor Repertoire Sequencing Analysis in Understanding Immune Responses to COVID-19.

Author

Kockelbergh, Hannah, Evans, Shelley, Deng, Tong, Clyne, Ella, Kyriakidou, Anna, Economou, Andreas, Luu Hoang, Kim Ngan, Woodmansey, Stephen, Foers, Andrew, Fowler, Anna, and Soilleux, Elizabeth J.

Subjects

SARS-CoV-2, COVID-19, MULTISYSTEM inflammatory syndrome, IMMUNE response, SEQUENCE analysis, LYMPHOPENIA

Abstract

Measuring immunity to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the causative agent of coronavirus disease 19 (COVID-19), can rely on antibodies, reactive T cells and other factors, with T-cell-mediated responses appearing to have greater sensitivity and longevity. Because each T cell carries an essentially unique nucleic acid sequence for its T-cell receptor (TCR), we can interrogate sequence data derived from DNA or RNA to assess aspects of the immune response. This review deals with the utility of bulk, rather than single-cell, sequencing of TCR repertoires, considering the importance of study design, in terms of cohort selection, laboratory methods and analysis. The advances in understanding SARS-CoV-2 immunity that have resulted from bulk TCR repertoire sequencing are also be discussed. The complexity of sequencing data obtained by bulk repertoire sequencing makes analysis challenging, but simple descriptive analyses, clonal analysis, searches for specific sequences associated with immune responses to SARS-CoV-2, motif-based analyses, and machine learning approaches have all been applied. TCR repertoire sequencing has demonstrated early expansion followed by contraction of SARS-CoV-2-specific clonotypes, during active infection. Maintenance of TCR repertoire diversity, including the maintenance of diversity of anti-SARS-CoV-2 response, predicts a favourable outcome. TCR repertoire narrowing in severe COVID-19 is most likely a consequence of COVID-19-associated lymphopenia. It has been possible to follow clonotypic sequences longitudinally, which has been particularly valuable for clonotypes known to be associated with SARS-CoV-2 peptide/MHC tetramer binding or with SARS-CoV-2 peptide-induced cytokine responses. Closely related clonotypes to these previously identified sequences have been shown to respond with similar kinetics during infection. A possible superantigen-like effect of the SARS-CoV-2 spike protein has been identified, by means of observing V-segment skewing in patients with severe COVID-19, together with structural modelling. Such a superantigen-like activity, which is apparently absent from other coronaviruses, may be the basis of multisystem inflammatory syndrome and cytokine storms in COVID-19. Bulk TCR repertoire sequencing has proven to be a useful and cost-effective approach to understanding interactions between SARS-CoV-2 and the human host, with the potential to inform the design of therapeutics and vaccines, as well as to provide invaluable pathogenetic and epidemiological insights. [ABSTRACT FROM AUTHOR]

Published

2022

16. Individual taxation report: recent developments.

Author

Auerbach, Art, Cook, Ellen D., Fowler, Anna C., Gershman, Edward A., Hagy, Janet C., Horn, Jonathan, Nellen, Annette, Neuschwander, Darren L., and Stapleton, Nora

Subjects

Health care reform -- Laws, regulations and rules -- Reports, Government regulation

Abstract

This article covers recent developments affecting taxation of individuals, including the health care reform and other legislation, regulations, cases, and IRS guidance. The items are arranged in Code section order. [...]

Published

2010

17. Individual taxation: digest of recent developments.

Author

Cook, Ellen D., Fowler, Anna C., Gershman, Edward A., Hagy, Janet C., Horn, Jonathan, Nellen, Annette, Neuschwander, Darren L., Newman, Dennis, and Stapleton, Nora

Subjects

Tax refunds -- Laws, regulations and rules, Child care tax credits -- Laws, regulations and rules, Income tax -- Laws, regulations and rules, Government regulation

Abstract

This article covers recent significant developments affecting taxation of individuals, including legislative changes, cases, regulations, and other IRS guidance. The items are arranged in Code section order. The Treasury Inspector [...]

Published

2010

18. Individual taxation report: recent developments.

Author

Cook, Ellen D., Fowler, Anna C., Horn, Jonathan, Nellen, Annette, Neuschwander, Darren L., Stapleton, Nora, and Walloch, Joseph W.

Subjects

Tax law -- Reports, Tax law

Abstract

EXECUTIVE SUMMARY * The American Recovery and Reinvestment Act of 2009 contained a number of changes to individual income tax provisions. The act changed the rules for many credits (such [...]

Published

2009

19. Recovery Act Reminder for 2009.

Author

Cook, Ellen D., Fowler, Anna C., Nellen, Annette, Stapleton, Nora, and Walloch, Joseph W.

Subjects

Child tax credit -- Laws, regulations and rules, Loss deductions -- Laws, regulations and rules, Government regulation, American Recovery and Reinvestment Act of 2009

Abstract

Given the breadth and variety of tax relief provisions in the American Recovery and Reinvestment Act (ARRA) of 2009, PL 111-5, one or more could affect your clients' individual returns [...]

Published

2009

20. Individual taxation: filing season update.

Author

Cook, Ellen D., Covington, Sabrina, Fowler, Anna C., Horn, Jonathan, Nellen, Annette, Neuschwander, Darren L., Stapleton, Nora, and Walloch, Joseph W.

Subjects

Government regulation

Abstract

EXECUTIVE SUMMARY * A number of credits and other items that were scheduled to expire (or had already expired) were extended by the Tax Extenders Act. The act also increased [...]

Published

2009

21. Predicting the animal hosts of coronaviruses from compositional biases of spike protein and whole genome sequences through machine learning.

Author

Brierley, Liam and Fowler, Anna

Subjects

*VIRAL genomes, *MACHINE learning, *EMERGING infectious diseases, *COVID-19 pandemic, *CORONAVIRUSES, *SARS-CoV-2, *COVID-19

Abstract

The COVID-19 pandemic has demonstrated the serious potential for novel zoonotic coronaviruses to emerge and cause major outbreaks. The immediate animal origin of the causative virus, SARS-CoV-2, remains unknown, a notoriously challenging task for emerging disease investigations. Coevolution with hosts leads to specific evolutionary signatures within viral genomes that can inform likely animal origins. We obtained a set of 650 spike protein and 511 whole genome nucleotide sequences from 222 and 185 viruses belonging to the family Coronaviridae, respectively. We then trained random forest models independently on genome composition biases of spike protein and whole genome sequences, including dinucleotide and codon usage biases in order to predict animal host (of nine possible categories, including human). In hold-one-out cross-validation, predictive accuracy on unseen coronaviruses consistently reached ~73%, indicating evolutionary signal in spike proteins to be just as informative as whole genome sequences. However, different composition biases were informative in each case. Applying optimised random forest models to classify human sequences of MERS-CoV and SARS-CoV revealed evolutionary signatures consistent with their recognised intermediate hosts (camelids, carnivores), while human sequences of SARS-CoV-2 were predicted as having bat hosts (suborder Yinpterochiroptera), supporting bats as the suspected origins of the current pandemic. In addition to phylogeny, variation in genome composition can act as an informative approach to predict emerging virus traits as soon as sequences are available. More widely, this work demonstrates the potential in combining genetic resources with machine learning algorithms to address long-standing challenges in emerging infectious diseases. Author summary: New zoonotic viruses remain a major threat to global health and the COVID-19 pandemic has shown the specific potential of coronaviruses to cause widespread disease burden and economic damage. Tracing the origins of these zoonotic viruses is extremely challenging and usually requires substantial effort. However, there is potential to uncover which animals may be the host origin of viruses by using 'signatures' within viral genomes generated by long-term coevolution. We investigated this by calculating 116 genomic features of spike protein sequences and whole genome sequences from approximately 200 coronaviruses. We used a machine learning approach in random forests, training separate models to predict broad host type using genomic information from spike proteins or whole genomes. Models trained on spike proteins achieved similar performance to that of whole genomes, reiterating the importance of this protein for host-virus interactions and likelihood of cross-species transmission. When applied to SARS-CoV-2, the causative virus of COVID-19, model predictions suggested a bat origin, consistent with estimations elsewhere using more traditional phylogenetic analyses. This work demonstrates the potential of machine learning to infer the ecology of new zoonotic viruses directly from genetic sequences, giving a rapid methodology to assist in tracing the origins of outbreaks. [ABSTRACT FROM AUTHOR]

Published

2021

22. Classification of intestinal T‐cell receptor repertoires using machine learning methods can identify patients with coeliac disease regardless of dietary gluten status.

Author

Foers, Andrew D, Shoukat, M Saad, Welsh, Oliver E, Donovan, Killian, Petry, Russell, Evans, Shelley C, FitzPatrick, Michael EB, Collins, Nadine, Klenerman, Paul, Fowler, Anna, and Soilleux, Elizabeth J

Subjects

GLUTEN allergenicity, CELIAC disease, GLUTEN, MACHINE learning, GLUTEN-free diet, T-cell lymphoma

Abstract

In coeliac disease (CeD), immune‐mediated small intestinal damage is precipitated by gluten, leading to variable symptoms and complications, occasionally including aggressive T‐cell lymphoma. Diagnosis, based primarily on histopathological examination of duodenal biopsies, is confounded by poor concordance between pathologists and minimal histological abnormality if insufficient gluten is consumed. CeD pathogenesis involves both CD4+ T‐cell‐mediated gluten recognition and CD8+ and γδ T‐cell‐mediated inflammation, with a previous study demonstrating a permanent change in γδ T‐cell populations in CeD. We leveraged this understanding and explored the diagnostic utility of bulk T‐cell receptor (TCR) sequencing in assessing duodenal biopsies in CeD. Genomic DNA extracted from duodenal biopsies underwent sequencing for TCR‐δ (TRD) (CeD, n = 11; non‐CeD, n = 11) and TCR‐γ (TRG) (CeD, n = 33; non‐CeD, n = 21). We developed a novel machine learning‐based analysis of the TCR repertoire, clustering samples by diagnosis. Leave‐one‐out cross‐validation (LOOCV) was performed to validate the classification algorithm. Using TRD repertoire, 100% (22/22) of duodenal biopsies were correctly classified, with a LOOCV accuracy of 91%. Using TCR‐γ (TRG) repertoire, 94.4% (51/54) of duodenal biopsies were correctly classified, with LOOCV of 87%. Duodenal biopsy TRG repertoire analysis permitted accurate classification of biopsies from patients with CeD following a strict gluten‐free diet for at least 6 months, who would be misclassified by current tests. This result reflects permanent changes to the duodenal γδ TCR repertoire in CeD, even in the absence of gluten consumption. Our method could complement or replace histopathological diagnosis in CeD and might have particular clinical utility in the diagnostic testing of patients unable to tolerate dietary gluten, and for assessing duodenal biopsies with equivocal features. This approach is generalisable to any TCR/BCR locus and any sequencing platform, with potential to predict diagnosis or prognosis in conditions mediated or modulated by the adaptive immune response. © 2020 The Authors. The Journal of Pathology published by John Wiley & Sons, Ltd. on behalf of The Pathological Society of Great Britain and Ireland. [ABSTRACT FROM AUTHOR]

Published

2021

23. In-Depth Assessment of Within-Individual and Inter-Individual Variation in the B Cell Receptor Repertoire

Author

Galson, Jacob D, Trück, Johannes, Fowler, Anna, Münz, Márton, Cerundolo, Vincenzo, Pollard, Andrew J, Lunter, Gerton, Kelly, Dominic F, University of Zurich, and Galson, Jacob D

Subjects

B cell receptor repertoire, 2403 Immunology, B cell, antibody diversity, Immunology, 610 Medicine & health, VDJ recombination, immunoglobulin repertoire, immunoglobulin gene, 10036 Medical Clinic, genetic variation, 2723 Immunology and Allergy, reproducibility, Original Research

Abstract

High-throughput sequencing of the B cell receptor (BCR) repertoire can provide rapid characterization of the B cell response in a wide variety of applications in health, after vaccination and in infectious, inflammatory and immune-driven disease, and is starting to yield clinical applications. However, the interpretation of repertoire data is compromised by a lack of studies to assess the intra and inter-individual variation in the BCR repertoire over time in healthy individuals. We applied a standardized isotype-specific BCR repertoire deep sequencing protocol to a single highly sampled participant, and then evaluated the method in 9 further participants to comprehensively describe such variation. We assessed total repertoire metrics of mutation, diversity, VJ gene usage and isotype subclass usage as well as tracking specific BCR sequence clusters. There was good assay reproducibility (both in PCR amplification and biological replicates), but we detected striking fluctuations in the repertoire over time that we hypothesize may be due to subclinical immune activation. Repertoire properties were unique for each individual, which could partly be explained by a decrease in IgG2 with age, and genetic differences at the immunoglobulin locus. There was a small repertoire of public clusters (0.5, 0.3, and 1.4% of total IgA, IgG, and IgM clusters, respectively), which was enriched for expanded clusters containing sequences with suspected specificity toward antigens that should have been historically encountered by all participants through prior immunization or infection. We thus provide baseline BCR repertoire information that can be used to inform future study design, and aid in interpretation of results from these studies. Furthermore, our results indicate that BCR repertoire studies could be used to track changes in the public repertoire in and between populations that might relate to population immunity against infectious diseases, and identify the characteristics of inflammatory and immunological diseases.

Published

2015

24. Statistics at the zoo.

Author

Holmes, Lisa, Edwards, Katie, Moss, Andy, Tollington, Simon, Fowler, Anna, Hughes, David, and Sudell, Maria

Subjects

ZOOS, ANIMAL welfare, ENDANGERED species, STATISTICS

Abstract

At Chester Zoo, it is not only the keepers who are taking care of the animals. Statistical methods are used to promote animal welfare and to preserve and protect endangered species. At Chester Zoo, it is not only the keepers who are taking care of the animals. Statistical methods are used to promote animal welfare and to preserve and protect endangered species. By Lisa Holmes, Katie Edwards, Andy Moss, Simon Tollington, Anna Fowler, David Hughes and Maria Sudell. [ABSTRACT FROM AUTHOR]

Published

2020

25. Experiences with the model tax curriculum.

Author

Dennis-Escoffier, Shirley, Fowler, Anna C., Phillips, John, Ransopher, Tad D., and Rhoades-Catanach, Shelley

Subjects

Tax law -- Curricula, Tax law

Abstract

Traditionally, a college student's first tax course has stressed tax topics for individuals. The basic concepts of income, business deductions and property transactions are taught within the context of their [...]

Published

2001

26. B-cell repertoire dynamics after sequential hepatitis B vaccination and evidence for cross-reactive B-cell activation.

Author

Galson, Jacob D., Trück, Johannes, Clutterbuck, Elizabeth A., Fowler, Anna, Cerundolo, Vincenzo, Pollard, Andrew J., Lunter, Gerton, and Kelly, Dominic F.

Subjects

B cells, HEPATITIS B vaccines, B cell receptors, CELL physiology, VIRAL antigens

Abstract

Background: A diverse B-cell repertoire is essential for recognition and response to infectious and vaccine antigens. High-throughput sequencing of B-cell receptor (BCR) genes can now be used to study the B-cell repertoire at great depth and may shed more light on B-cell responses than conventional immunological methods. Here, we use high-throughput BCR sequencing to provide novel insight into B-cell dynamics following a primary course of hepatitis B vaccination. Methods: Nine vaccine-naïve participants were administered three doses of hepatitis B vaccine (months 0, 1, and 2 or 7). High-throughput Illumina sequencing of the total BCR repertoire was combined with targeted sequencing of sorted vaccine antigen-enriched B cells to analyze the longitudinal response of both the total and vaccine-specific repertoire after each vaccine. ELISpot was used to determine vaccine-specific cell numbers following each vaccine. Results: Deconvoluting the vaccine-specific from total BCR repertoire showed that vaccine-specific sequence clusters comprised <0.1 % of total sequence clusters, and had certain stereotypic features. The vaccine-specific BCR sequence clusters were expanded after each of the three vaccine doses, despite no vaccine-specific B cells being detected by ELISpot after the first vaccine dose. These vaccine-specific BCR clusters detected after the first vaccine dose had distinct properties compared to those detected after subsequent doses; they were more mutated, present at low frequency even prior to vaccination, and appeared to be derived from more mature B cells. Conclusions: These results demonstrate the high-sensitivity of our vaccine-specific BCR analysis approach and suggest an alternative view of the B-cell response to novel antigens. In the response to the first vaccine dose, many vaccine-specific BCR clusters appeared to largely derive from previously activated cross-reactive B cells that have low affinity for the vaccine antigen, and subsequent doses were required to yield higher affinity B cells. [ABSTRACT FROM AUTHOR]

Published

2016

27. The Diversity and Molecular Evolution of B-Cell Receptors during Infection.

Author

Hoehn, Kenneth B., Fowler, Anna, Lunter, Gerton, and Pybus, Oliver G.

Abstract

B-cell receptors (BCRs) are membrane-bound immunoglobulins that recognize and bind foreign proteins (antigens). BCRs are formed through random somatic changes of germline DNA, creating a vast repertoire of unique sequences that enable individuals to recognize a diverse range of antigens. After encountering antigen for the first time, BCRs undergo a process of affinity maturation, whereby cycles of rapid somatic mutation and selection lead to improved antigen binding. This constitutes an accelerated evolutionary process that takes place over days or weeks. Next-generation sequencing of the gene regions that determine BCR binding has begun to reveal the diversity and dynamics of BCR repertoires in unprecedented detail. Although this new type of sequence data has the potential to revolutionize our understanding of infection dynamics, quantitative analysis is complicated by the unique biology and high diversity of BCR sequences. Models and concepts from molecular evolution and phylogenetics that have been applied successfully to rapidly evolving pathogen populations are increasingly being adopted to study BCR diversity and divergence within individuals. However, BCR dynamics may violate key assumptions of many standard evolutionary methods, as they do not descend from a single ancestor, and experience biased mutation. Here, we review the application of evolutionary models to BCR repertoires and discuss the issues we believe need be addressed for this interdisciplinary field to flourish. [ABSTRACT FROM AUTHOR]

Published

2016

28. Differential Sensitivity of Prefrontal Cortex and Hippocampus to Alcohol-Induced Toxicity.

Author

Fowler, Anna-Kate, Thompson, Jeremy, Chen, Lixia, Dagda, Marisela, Dertien, Janet, Dossou, Katina Sylvestre S., Moaddel, Ruin, Bergeson, Susan E., and Kruman, Inna I.

Subjects

*HIPPOCAMPUS physiology, *PHYSIOLOGICAL effects of alcohol, *PREFRONTAL cortex, *CELL death, *OXIDATIVE stress, *TOXICITY testing, *EXECUTIVE function, *SHORT-term memory, *PHYSIOLOGY

Abstract

The prefrontal cortex (PFC) is a brain region responsible for executive functions including working memory, impulse control and decision making. The loss of these functions may ultimately lead to addiction. Using histological analysis combined with stereological technique, we demonstrated that the PFC is more vulnerable to chronic alcohol-induced oxidative stress and neuronal cell death than the hippocampus. This increased vulnerability is evidenced by elevated oxidative stress-induced DNA damage and enhanced expression of apoptotic markers in PFC neurons. We also found that one-carbon metabolism (OCM) impairment plays a significant role in alcohol toxicity to the PFC seen from the difference in the effects of acute and chronic alcohol exposure on DNA repair and from exaggeration of the damaging effects upon additional OCM impairment in mice deficient in a key OCM enzyme, methylenetetrahydrofolate reductase (MTHFR). Given that damage to the PFC leads to loss of executive function and addiction, our study may shed light on the mechanism of alcohol addiction. [ABSTRACT FROM AUTHOR]

Published

2014

29. DYNAMIC BAYESIAN CLUSTERING.

Author

FOWLER, ANNA, MENON, VILAS, and HEARD, NICHOLAS A.

Subjects

*GENE expression, *AVERSIVE stimuli, *BAYESIAN analysis, *MICROCLUSTERS, *CELL cycle, *BIOINFORMATICS, *TIME series analysis

Abstract

Clusters of time series data may change location and memberships over time; in gene expression data, this occurs as groups of genes or samples respond differently to stimuli or experimental conditions at different times. In order to uncover this underlying temporal structure, we consider dynamic clusters with time-dependent parameters which split and merge over time, enabling cluster memberships to change. These interesting time-dependent structures are useful in understanding the development of organisms or complex organs, and could not be identified using traditional clustering methods. In cell cycle data, these time-dependent structure may provide links between genes and stages of the cell cycle, whilst in developmental data sets they may highlight key developmental transitions. [ABSTRACT FROM AUTHOR]

Published

2013

30. Alcohol-induced One-carbon Metabolism Impairment Promotes Dysfunction of DNA Base Excision Repair in Adult Brain.

Author

Fowler, Anna-Kate, Hewetson, Aveline, Agrawal, Rajiv G., Dagda, Marisela, Dagda, Raul, Moaddel, Ruin, Balbo, Silvia, Sanghvi, Mitesh, Chen, Yukun, Hogue, Ryan J., Bergeson, Susan E., Henderson, George I., and Kruman, Inna I.

Subjects

*ALCOHOLISM, *BRAIN research, *BRAIN damage, *NEUROTOXICOLOGY, *ETHANOL, *METHYLENETETRAHYDROFOLATE reductase

Abstract

The brain is one of the major targets of chronic alcohol abuse. Yet the fundamental mechanisms underlying alcohol-mediated brain damage remain unclear. The products of alcohol metabolism cause DNA damage, which in conditions of DNA repair dysfunction leads to genomic instability and neural death. We propose that one-carbon metabolism (OCM) impairment associated with long term chronic ethanol intake is a key factor in ethanol-induced neurotoxicity, because OCM provides cells with DNA precursors for DNA repair and methyl groups for DNA methylation, both critical for genomic stability. Using histological (immunohistochemistry and stereological counting) and biochemical assays, we show that 3-week chronic exposure of adult mice to 5% ethanol (Lieber-Decarli diet) results in increased DNA damage, reduced DNA repair, and neuronal death in the brain. These were concomitant with compromised OCM,as evidenced by elevated homocysteine, a marker ofOCM dysfunction. We conclude that OCM dysfunction plays a causal role in alcohol-induced genomic instability in the brain because OCM status determines the alcohol effect on DNA damage/repair and genomic stability. Short ethanol exposure, which did not disturb OCM, also did not affect the response to DNA damage, whereas additional OCM disturbance induced by deficiency in a key OCM enzyme, methylenetetrahydrofolate reductase (MTHFR) in Mthfr+/- mice, exaggerated the ethanol effect on DNA repair. Thus, the impact of long term ethanol exposure on DNA repair and genomic stability in the brain results from OCM dysfunction, and MTHFR mutations such as Mthfr 677C→T, common in human population, may exaggerate the adverse effects of ethanol on the brain. [ABSTRACT FROM AUTHOR]

Published

2012

31. On two-way Bayesian agglomerative clustering of gene expression data.

Author

Fowler, Anna and Heard, Nicholas A.

Subjects

*GENE expression, *BAYESIAN analysis, *CLUSTER analysis (Statistics), *PROBABILITY theory, *ALGORITHMS, *STATISTICAL sampling, *MATHEMATICAL models

Abstract

This article introduces an agglomerative Bayesian model-based clustering algorithm which outputs a nested sequence of two-way cluster configurations for an input matrix of data. Each two-way cluster configuration in the output hierarchy is specified by a row configuration and a column configuration whose Cartesian product partitions the data matrix. Variable selection is incorporated into the algorithm by identifying row clusters which form distinct groups defined by the column clusters, through the use of a mixture model. A primitive similarity measure between the two clusters is the multiplicative change in model posterior probability implied by their merger, and the hierarchy is formed by iteratively merging the cluster pair which maximize some fixed monotonic function of this quantity. A naive implementation of the algorithm would be to choose this function to be the identity function. However, when applying this naive algorithm to gene expression data where the number of genes being studied typically far exceeds the number of experimental samples available, this imbalanced dimensionality of the data results in an algorithmic bias toward merging samples. To counteract this bias, alternative functions of the similarity measure are considered which prevent degenerative behavior of the algorithm. The resulting improvements in the output cluster configurations are demonstrated on simulated data and the method is then applied to real gene expression data. © 2012 Wiley Periodicals, Inc. Statistical Analysis and Data Mining, 2012 [ABSTRACT FROM AUTHOR]

Published

2012

32. Installment Sales: Temporary Regulations Inconsistent with Judicial Definition of Payment.

Author

WyndeIts, Robert W. and Fowler, Anna C.

Subjects

CONDITIONAL sales, CERTIFICATES of deposit, PROPERTY tax relief, LETTERS of credit, TAX laws, INSTALLMENT method of accounting, PROPERTY tax, COMMERCIAL law

Abstract

The U.S. Congress enacted Section 453 as a relief provision for taxpayers who disposed of property in one year but received a substantial portion of the consideration in later years. The Installment Sales Revision Act of 1980 (ISRA) has increased flexibility by eliminating the provision restricting installment reporting to transactions in which payments in the year of sale do not exceed 30 percent of the settling price. Now the installment method is available when- ever there is at least one payment to be collected in a taxable year subsequent to the year of disposition. With the elimination of the 30-percent ceiling, sellers no longer encounter the problem of deter- mining whether a particular deferred payment contract qualifies for Section 453 treatment. Unfortunately, however, the definition of "payment" contained in the ISRA does not adequately address the matter of whether the seller has received a payment in a particular year. Even though the statute no longer limits the amount of the payment which may be received in the year of sale, the issue of what constitutes a payment still holds significance.

Published

1981

33. Analysis of B Cell Repertoire Dynamics Following Hepatitis B Vaccination in Humans, and Enrichment of Vaccine-specific Antibody Sequences

Author

Galson, Jacob D, Trück, Johannes, Fowler, Anna, Clutterbuck, Elizabeth A, Münz, Márton, Cerundolo, Vincenzo, Reinhard, Claudia, van der Most, Robbert, Pollard, Andrew J, Lunter, Gerton, Kelly, Dominic F, University of Zurich, and Galson, Jacob D

Subjects

Adult, Hepatitis B virus, Time Factors, Plasma Cells, B-Lymphocyte Subsets, lcsh:Medicine, 610 Medicine & health, mAbs, Young Adult, 1300 General Biochemistry, Genetics and Molecular Biology, Antibody Specificity, Databases, Genetic, Humans, Hepatitis B Vaccines, Lymphocyte Count, Hepatitis B Antibodies, lcsh:R5-920, B cell repertoire, lcsh:R, Vaccination, Computational Biology, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Middle Aged, Hepatitis B, Immunoglobulin Isotypes, 10036 Medical Clinic, Immunoglobulin repertoire, lcsh:Medicine (General), Immunologic Memory, Research Article

Abstract

Generating a diverse B cell immunoglobulin repertoire is essential for protection against infection. The repertoire in humans can now be comprehensively measured by high-throughput sequencing. Using hepatitis B vaccination as a model, we determined how the total immunoglobulin sequence repertoire changes following antigen exposure in humans, and compared this to sequences from vaccine-specific sorted cells. Clonal sequence expansions were seen 7 days after vaccination, which correlated with vaccine-specific plasma cell numbers. These expansions caused an increase in mutation, and a decrease in diversity and complementarity-determining region 3 sequence length in the repertoire. We also saw an increase in sequence convergence between participants 14 and 21 days after vaccination, coinciding with an increase of vaccine-specific memory cells. These features allowed development of a model for in silico enrichment of vaccine-specific sequences from the total repertoire. Identifying antigen-specific sequences from total repertoire data could aid our understanding B cell driven immunity, and be used for disease diagnostics and vaccine evaluation., Highlights • There is B cell immunoglobulin sequence expansion and mutation 7 days after vaccination. • There is sequence convergence between participants 14 and 21 days after vaccination with a common antigen. • These properties allow de novo identification of vaccine-specific immunoglobulin sequence clusters. The B cell repertoire is a diverse system that adapts in response to infection/vaccination to protect against disease. Next-generation sequencing can be used to study this system at the level of the B cell immunoglobulin sequences, but it is difficult to distinguish the sequences responding to the antigen of interest from background noise. By sequencing both the total and vaccine-specific B cell immunoglobulin repertoire, we show that there are time-limited perturbations in the total repertoire following vaccination. These data were used to develop models for the enrichment of vaccine-specific sequences, which could give insight into the underlying biology of vaccination.

34. How we do it: training in airway management for a head and neck unit.

Author

Stimpson, Paul, Collard, Benjamin, Baldwin, David J., and Fowler, Anna

Subjects

OCCUPATIONAL training, MEDICAL care, ORAL surgery, MAXILLOFACIAL surgery

Abstract

Abstract: Experience and confidence in the management of the airway is highly variable among junior surgical trainees, who are usually the first on scene when problems arise, particularly out of hours. Juniors must possess the skills required to recognise and institute appropriate management in an airway emergency. We describe a local training programme, an airway equipment trolley, and a protocol for recognition, stabilisation, and management, in case of an airway emergency. [Copyright &y& Elsevier]

Published

2008

35. Individual Taxation: Digest of Recent Developments.

Author

Fowler, Anna C., Gershman, Edward A., Hagy, Janet C., Horn, Jonathan, Nellen, Annette, Neuschwander, Darren L., Newman, Dennis, Stapleton, Nora, and Cook, Ellen D.

Subjects

TAX credits, TAXPAYER account numbers, GROSS income, TAX courts

Abstract

• TIGTA made recommendations regarding the use of individual tax identification numbers (ITINs) with respect to refundable tax credits such as the child tax credit. TIGTA also recommended that the IRS develop a new process to prevent erroneous claims for the earned income credit. • The IRS issued guidance providing the procedure for electing under Sec. 108(i) to include income from indebtedness discharged in a reacquisition of a debt instrument in gross income ratably over a five-year period. • The IRS issued advice to its employees regarding the determination of whether a taxpayer can claim a dependency exemption for a noncustodial child, and several courts ruled on this issue in specific situations. • The IRS rejected a Tax Court position and advised that indebtedness incurred to acquire, construct, or substantially improve a residence that exceeds $1 million is not acquisition indebtedness. However, the IRS states that up to $100,000 of such debt can be treated as home equity indebtedness (assuming no separate home equity debt exists), thereby allowing interest on $1,100,000 of the debt to acquire the home to be deductible. [ABSTRACT FROM AUTHOR]

Published

2010

36. READER GEAR REVIEW.

Author

Fowler, Anna

Published

2016

37. Inferring B cell specificity for vaccines using a Bayesian mixture model

Author

Dominic F. Kelly, Gerton Lunter, Jacob D. Galson, Anna Fowler, Johannes Trück, University of Zurich, and Fowler, Anna

Subjects

Immune repertoire, lcsh:QH426-470, lcsh:Biotechnology, B-cell receptor, 610 Medicine & health, Computational biology, Biology, 03 medical and health sciences, 0302 clinical medicine, Immune system, 1311 Genetics, Antigen, Immunity, lcsh:TP248.13-248.65, Influenza, Human, Genetics, medicine, Humans, B cell, 030304 developmental biology, B-Lymphocytes, Vaccines, 0303 health sciences, High-throughput sequencing, B cell receptor, Methodology Article, Vaccination, Models, Immunological, breakpoint cluster region, Bayes Theorem, Hepatitis B, lcsh:Genetics, medicine.anatomical_structure, 10036 Medical Clinic, 1305 Biotechnology, biology.protein, Antibody, 030215 immunology, Biotechnology

Abstract

Background Vaccines have greatly reduced the burden of infectious disease, ranking in their impact on global health second only after clean water. Most vaccines confer protection by the production of antibodies with binding affinity for the antigen, which is the main effector function of B cells. This results in short term changes in the B cell receptor (BCR) repertoire when an immune response is launched, and long term changes when immunity is conferred. Analysis of antibodies in serum is usually used to evaluate vaccine response, however this is limited and therefore the investigation of the BCR repertoire provides far more detail for the analysis of vaccine response. Results Here, we introduce a novel Bayesian model to describe the observed distribution of BCR sequences and the pattern of sharing across time and between individuals, with the goal to identify vaccine-specific BCRs. We use data from two studies to assess the model and estimate that we can identify vaccine-specific BCRs with 69% sensitivity. Conclusion Our results demonstrate that statistical modelling can capture patterns associated with vaccine response and identify vaccine specific B cells in a range of different data sets. Additionally, the B cells we identify as vaccine specific show greater levels of sequence similarity than expected, suggesting that there are additional signals of vaccine response, not currently considered, which could improve the identification of vaccine specific B cells.

Published

2020

38. Chapter 7 - Management of the hypermobile adult

Author

Keer, Rosemary, Edwards-Fowler, Anna, and Mansi, Elizabeth

39. Foreword

Author

Edwards-Fowler, Anna

40. DECoN: A Detection and Visualization Tool for Exonic Copy Number Variants.

Author

Fowler A

Subjects

Algorithms, Exons, High-Throughput Nucleotide Sequencing, Software, DNA Copy Number Variations, Exome

Abstract

Detection of copy number variants from targeted sequencing, including whole-exome sequencing, can be particularly difficult since the break points of the CNV are not always captured. Here we describe DECoN, a software tool which uses changes in read depth to identify CNVs that affect whole exons. It is optimized for clinical use and allows for interactive visualization of CNVs identified., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

41. Use of Transnasal Humidified Rapid-Insufflation Ventilatory Exchange for Emergent Surgical Tracheostomy: A Case Report.

Author

Desai N and Fowler A

Subjects

Adult, Humans, Hypoventilation, Insufflation methods, Male, Nose, Airway Management methods, Tracheostomy methods

Abstract

Transnasal humidified rapid-insufflation ventilatory exchange (THRIVE) is a novel airway technique that utilizes high-flow humidified nasal oxygen. It can extend apnea time and maintain oxygen saturation. Here we report the use of THRIVE in a 35-year-old man who required emergent surgical tracheostomy for a clinically relevant compromised airway secondary to acute supraglottic and glottic pathology. Intravenous sedation resulted in hypoventilation close to apnea. THRIVE maintained oxygen saturation for 40 minutes until transient desaturation developed after complete airway obstruction.

Published

2017

42. Accurate clinical detection of exon copy number variants in a targeted NGS panel using DECoN.

Author

Fowler A, Mahamdallie S, Ruark E, Seal S, Ramsay E, Clarke M, Uddin I, Wylie H, Strydom A, Lunter G, and Rahman N

Abstract

Background: Targeted next generation sequencing (NGS) panels are increasingly being used in clinical genomics to increase capacity, throughput and affordability of gene testing. Identifying whole exon deletions or duplications (termed exon copy number variants, 'exon CNVs') in exon-targeted NGS panels has proved challenging, particularly for single exon CNVs.  Methods: We developed a tool for the Detection of Exon Copy Number variants (DECoN), which is optimised for analysis of exon-targeted NGS panels in the clinical setting. We evaluated DECoN performance using 96 samples with independently validated exon CNV data. We performed simulations to evaluate DECoN detection performance of single exon CNVs and to evaluate performance using different coverage levels and sample numbers. Finally, we implemented DECoN in a clinical laboratory that tests BRCA1 and BRCA2 with the TruSight Cancer Panel (TSCP). We used DECoN to analyse 1,919 samples, validating exon CNV detections by multiplex ligation-dependent probe amplification (MLPA).  Results: In the evaluation set, DECoN achieved 100% sensitivity and 99% specificity for BRCA exon CNVs, including identification of 8 single exon CNVs. DECoN also identified 14/15 exon CNVs in 8 other genes. Simulations of all possible BRCA single exon CNVs gave a mean sensitivity of 98% for deletions and 95% for duplications. DECoN performance remained excellent with different levels of coverage and sample numbers; sensitivity and specificity was >98% with the typical NGS run parameters. In the clinical pipeline, DECoN automatically analyses pools of 48 samples at a time, taking 24 minutes per pool, on average. DECoN detected 24 BRCA exon CNVs, of which 23 were confirmed by MLPA, giving a false discovery rate of 4%. Specificity was 99.7%.  Conclusions: DECoN is a fast, accurate, exon CNV detection tool readily implementable in research and clinical NGS pipelines. It has high sensitivity and specificity and acceptable false discovery rate. DECoN is freely available at www.icr.ac.uk/decon., Competing Interests: Competing interests: No competing interests were disclosed.

Published

2016

43. Erratum to: B-cell repertoire dynamics after sequential hepatitis B vaccination and evidence for cross-reactive B-cell activation.

Author

Galson JD, Trück J, Clutterbuck EA, Fowler A, Cerundolo V, Pollard AJ, Lunter G, and Kelly DF

Published

2016

44. Analysis of B Cell Repertoire Dynamics Following Hepatitis B Vaccination in Humans, and Enrichment of Vaccine-specific Antibody Sequences.

Author

Galson JD, Trück J, Fowler A, Clutterbuck EA, Münz M, Cerundolo V, Reinhard C, van der Most R, Pollard AJ, Lunter G, and Kelly DF

Subjects

Adult, Antibody Specificity, B-Lymphocyte Subsets metabolism, Computational Biology methods, Databases, Genetic, Hepatitis B Antibodies genetics, High-Throughput Nucleotide Sequencing, Humans, Immunoglobulin Isotypes genetics, Immunoglobulin Isotypes immunology, Immunologic Memory, Lymphocyte Count, Middle Aged, Plasma Cells immunology, Plasma Cells metabolism, Sequence Analysis, DNA, Time Factors, Young Adult, B-Lymphocyte Subsets immunology, Hepatitis B immunology, Hepatitis B prevention & control, Hepatitis B Antibodies immunology, Hepatitis B Vaccines immunology, Hepatitis B virus immunology, Vaccination

Abstract

Generating a diverse B cell immunoglobulin repertoire is essential for protection against infection. The repertoire in humans can now be comprehensively measured by high-throughput sequencing. Using hepatitis B vaccination as a model, we determined how the total immunoglobulin sequence repertoire changes following antigen exposure in humans, and compared this to sequences from vaccine-specific sorted cells. Clonal sequence expansions were seen 7 days after vaccination, which correlated with vaccine-specific plasma cell numbers. These expansions caused an increase in mutation, and a decrease in diversity and complementarity-determining region 3 sequence length in the repertoire. We also saw an increase in sequence convergence between participants 14 and 21 days after vaccination, coinciding with an increase of vaccine-specific memory cells. These features allowed development of a model for in silico enrichment of vaccine-specific sequences from the total repertoire. Identifying antigen-specific sequences from total repertoire data could aid our understanding B cell driven immunity, and be used for disease diagnostics and vaccine evaluation.

Published

2015