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Research article - Peer-reviewed, 2016

Novel technologies applied to the nucleotide sequencing and comparative sequence analysis of the genomes of infectious agents in veterinary medicine

Granberg, F.; Bálint, Á.; Belák, S.

Abstract

Next-generation sequencing (NGS), also referred to as deep, high-throughput or massively parallel sequencing, is a powerful new tool that can be used for the complex diagnosis and intensive monitoring of infectious disease in veterinary medicine. NGS technologies are also being increasingly used to study the aetiology, genomics, evolution and epidemiology of infectious disease, as well as host-pathogen interactions and other aspects of infection biology.This review briefly summarises recent progress and achievements in this field by first introducing a range of novel techniques and then presenting examples of NGS applications in veterinary infection biology. Various work steps and processes for sampling and sample preparation, sequence analysis and comparative genomics, and improving the accuracy of genomic prediction are discussed, as are bioinformatics requirements. Examples of sequencing-based applications and comparative genomics in veterinary medicine are then provided. This review is based on novel references selected from the literature and on experiences of the World Organisation for Animal Health (OIE) Collaborating Centre for the Biotechnology-based Diagnosis of Infectious Diseases in Veterinary Medicine, Uppsala, Sweden.

Keywords

Bacteria; Comparative genomics; Diagnosis; High-throughput sequencing; Infectious agent; Infectious disease; Metagenomics; Next-generation sequencing; Veterinary medicine; Virus

Published in

Revue Scientifique et Technique- Office International des Epizooties
2016, Volume: 35, number: 1, pages: 25-42
Publisher: OFFICE INT EPIZOOTIES