Algorithms for Viral Population Analysis

Mancuso, Nicholas

12 August 2014

The genetic structure of an intra-host viral population has an effect on many clinically important phenotypic traits such as escape from vaccine induced immunity, virulence, and response to antiviral therapies. Next-generation sequencing provides read-coverage sufficient for genomic reconstruction of a heterogeneous, yet highly similar, viral population; and more specifically, for the detection of rare variants. Admittedly, while depth is less of an issue for modern sequencers, the short length of generated reads complicates viral population assembly. This task is worsened by the presence of both random and systematic sequencing errors in huge amounts of data. In this dissertation I present completed work for reconstructing a viral population given next-generation sequencing data. Several algorithms are described for solving this problem under the error-free amplicon (or sliding-window) model. In order for these methods to handle actual real-world data, an error-correction method is proposed. A formal derivation of its likelihood model along with optimization steps for an EM algorithm are presented. Although these methods perform well, they cannot take into account paired-end sequencing data. In order to address this, a new method is detailed that works under the error-free paired-end case along with maximum a-posteriori estimation of the model parameters.

Viral population reconstruction

Variant quantification

Assembly

Read overlap graph

Integer programming

Conception d'un vaccin recombinant contre la maladie de Marek d'après l'étude de la dynamique des populations de variants du vaccin CV1988/RISPENS / Design of a recombinant vaccine against the Marek's disease from the populations dynamics analysis of variants population of the CV1988/rispens vaccine

Labaille, Jennifer

15 February 2013

Le Gallid herpesvirus 2 (GaHV-2), responsable de lymphomes T du poulet, est contrôlé par le vaccin CVI988/Rispens. Mes travaux de thèse ont montré que le vaccin était composé, au contraire des souches virulentes, d’une population dynamique de variants viraux majoritairement délétés de la région promotrice et d’une partie variable de l’extrémité 5’ du gène LAT codant des microARN et associé à la latence virale. Dans une approche vaccinale, un virus recombinant correspondant à l’un des variants majoritaires du vaccin CVI988/Rispens a été généré à partir d’une souche GaHV-2 hypervirulente, clonée en bacmide. Nous avons montré que ce recombinant, présentant une perte de pathogénicité presque totale, était capable de protéger significativement les poulets lors d’une épreuve avec des souches GaHV-2 hypervirulentes. Ces travaux posent les bases du développement de nouveaux vaccins à partir de souches hypervirulentes émergentes. / Gallid herpesvirus 2 (GaHV-2), responsible for T-cell lymphomas chicken, is controlled by the vaccine CVI988/Rispens. My work has shown that the vaccine contains, unlike virulent strain, a viral variants population mostly deleted from the promoter region and a variable portion of the 5' end of the gene LAT encoding microRNA and associated with viral latency. In a vaccine approach, a recombinant virus corresponding to a majority variant of the CVI988/Rispens vaccine was generated from a hypervirulent strain GaHV-2, cloned as bacmid. We showed that recombinant, with an almost total loss of pathogenicity, was able to significantly protect chickens against challenge with virulent strains GaHV-2. This work lays the basis for the development of new vaccines from emerging virulent strains.

Herpesvirus

GaHV-2

Population virale

Vaccin recombinant

Variants viraux

Herpesvirus

GaHV-2

Viral population

Recombinant vaccine

Viral variants

Analysis of NGS Data from Immune Response and Viral Samples

Gerasimov, Ekaterina

08 August 2017

This thesis is devoted to designing and applying advanced algorithmical and statistical tools for analysis of NGS data related to cancer and infection diseases. NGS data under investigation are obtained either from host samples or viral variants. Recently, random peptide phage display libraries (RPPDL) were applied to studies of host's antibody response to different diseases. We study human antibody response to breast cancer and mouse antibody response to Lyme disease by sequencing of the whole antibody repertoire profiles which are represented by RPPDL. Alternatively, instead of sequencing immune response NGS can be applied directly to a viral population within an infected host. Specifically, we analyze the following RNA viruses: the human immunodeficiency virus (HIV) and the infectious bronchitis virus (IBV). Sequencing of RNA viruses is challenging because there are many variants inside population due to high mutation rate. Our results show that NGS helps to understand RNA viruses and explore their interaction with infected hosts. NGS also helps to analyze immune response to different diseases, trace changing of immune response at different disease stages.

Next generation sequencing

RNA virus

Viral population reconstruction

Error correction of NGS reads

Assembly of NGS reads

Random peptide phage display libraries

Breast cancer

Lyme disease

rubella

RNA-seq