Viral Genomics and Bioinformatics (Asia)

22–26 August 2022

Virtual Course 

Hands-on training in viral genome sequence analysis and interpretation of large-scale sequencing genomics data with a spotlight on SARS-CoV-2. 

Course Summary

This course will run virtually between 22-26 August 2022, between 12h00-20h00 ICT.

We are pleased to announce the next Viral Genomics and Bioinformatics in collaboration with COVID-19 Genomics (COG) Train (COG-Train).

Viruses are a huge public health burden all around the world. In Asia, viral infections such as influenza, dengue fever, hand, foot and mouth disease, chikungunya, and viral hepatitis kill hundreds of thousands of people each year.  Apart from health issues, emerging viral illnesses and epidemics have a global economic impact. According to the World Bank, the SARS-Cov-2 pandemic caused a more than $10 trillion deficit in the global economy in 2020-2021 alone. This demonstrates the impact of viral illnesses not only on human and animal health, but also on social and economic growth of the world.

Technological advances in science and research are making it possible to rapid detection, surveillance and management of viral diseases. In recent years, next generation sequencing (NGS) technologies have played an important role in the identification and classification of viruses, in the detection of drug resistance mutations and in the treatment and surveillance of viral diseases. Early identification of a virus and quick analysis of its genome will aid towards better treatment and help in controlling the disease spread. Along with the advances in the sequencing technologies, it is necessary to develop data management methods, computational analysis tools and human expertise to cope with the sequence deluge. The number of researchers able to interpret viral high throughput sequence data is currently limited.   

The Viral Genomics and Bioinformatics course will teach participants how to analyse  viral genome sequences and interpret genomic data obtained by high-throughput sequencing. The use of the command line to analyse viral NGS data, quality control of sequences, reference mapping and de novo assembly of viral genomes, pathogen identification from metagenomics data, and creating phylogenetic trees will be covered in the course. 

The course will enable participants to apply Train the trainer strategies to enhance their learning and capabilities to disseminate their knowledge and skills which contribute to strengthening capacity and networks in their own settings. Along with gaining bioinformatics knowledge, participants will have an opportunity to establish links and develop future collaborative projects with their peers and experts in the viral bioinformatics field.

Target audience

The course is free to attend and is aimed at scientists based in Asia who are engaged in relevant research or clinical activities, have access to viral genome sequence data and interest in disseminating knowledge to small groups. The programme will benefit research scientists including PhD students, postdoctoral researchers; and healthcare professionals including clinical laboratory scientists.

Programme

The hands-on programme will cover several aspects of analysis of next generation sequencing data from viral genomes, including lectures, practical computational sessions, case studies and seminars:

Topics

  • Introduction to Linux/Unix
  • BASH scripting
  • NGS file formats
  • NGS data quality check and cleaning
  • Reference mapping
  • Assembly statistics and visualisation
  • Consensus and variant calling
  • De novo assembly
  • Pathogen sequence detection using metagenomics
  • Multiple sequence alignment
  • Phylogenetics methods and tree building
  • Group Project – SARS-CoV-2 analysis pipeline

Guest Lectures and Seminars – TBC

  • Global health and viral diseases
  • Overview of current sequencing technologies and applications
  • Evolution of pathogens
  • Resistance associated mutations
  • Databases for viral sequence upload and surveillance  – GISAID
  • ARTIC seminar 
  • Metagenomics (pathogen discovery +)

Learning Outcomes:

After completing this course, participants should be able to:

  • Apply Unix/Linux command-line and write basic shell scripts for automating bioinformatics tasks
  • Recognise the different file formats related to genome sequencing data (Illumina, Minion, and ARCTIC protocol outputs)
  • Select an appropriate strategy for quality control of NGS data
  • Perform reference mapping using different software (e.g. BWA, Bowtie, Novoalign, Tanoti).
  • Evaluate genome assemblies using statistics and visualisations
  • Use multiple de-novo assemblers for viral genome reconstruction (e.g. SPAdes, ABYSS, IDBA-UD)
  • Use metagenomics tools such as KRAKEN and Centrifuge to detect and identify viral pathogens
  • Select appropriate software tools to call variants from a genome assembly.
  • Compute multiple sequence alignments  and construct phylogenetic trees to understand viral evolution and transmission dynamics
  • Build a pipeline for analysis, interpretation and identification of viral pathogens.
  • Identify effective methods for disseminating knowledge and skills in viral bioinformatics.

 

Instructors and speakers

Organisers  

Sreenu Vattipally
MRC-University of Glasgow Centre for Virus Research, UK

Urmila Kulkarni Kale
Savitribai Phule Pune University

Le Van Tan
Oxford University Clinical Research Unit (OUCRU)

Instructors and Assistants

Srikeerthana Kuchi
MRC-University of Glasgow Centre for Virus Research, UK

Richard Orton
MRC-University of Glasgow Centre for Virus Research, UK

October Sessions
National University of Singapore

To Nguyen
Oxford University Clinical Research Unit (OUCRU)

Sunitha Manjari Kasibhatla
Savitribai Phule Pune University

Dhiraj Dhotre
National Center for Cell Sciences, Pune 

David Studholme
University of Exeter

How to apply

Prerequisites

The course will enable participants to apply Train the trainer strategies to enhance their learning and capabilities to disseminate their knowledge and skills which contribute to strengthening capacity and networks in their own settings. Along with gaining bioinformatics knowledge, participants will have an opportunity to establish links and develop future collaborative projects with their peers and experts in the viral bioinformatics field.

The course will be taught in English.

Applicants should be comfortable working on computers, and be familiar with the UNIX/Linux operating system and basic command line. There are numerous online introductory tutorials to the UNIX/Linux operating system and command line, including:

http://www.ee.surrey.ac.uk/Teaching/Unix

http://swcarpentry.github.io/shell-novice/

How to Apply

Please click on the Apply button above to begin the application process. Places are limited and will be awarded on merit. If you have any problems with the online application process, please contact us.

Please note: Applications must be supported by a recommendation from a scientific or clinical sponsor (e.g. supervisor, line manager or head of department). A request for a supporting statement will be sent to your nominated sponsor automatically during the application process. Applicants must ensure that their sponsor provides this supporting statement by the application deadline. Applications without a supporting statement cannot be considered.

Cost

Cost
The course is subsidised by Wellcome Connecting Science Courses and COG-Train and is free to attend for non-commercial applicants. Please contact us for the commercial fee.


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