Unbiased Deep Sequencing of RNA Viruses from Clinical Samples

Overview

Journal J Vis Exp

Specialties Biology
General Medicine

Date 2016 Jul 13

PMID 27403729

Citations 25

Authors

Christian B Matranga

Adrianne Gladden-Young

James Qu

Sarah Winnicki

Dolo Nosamiefan

Joshua Z Levin

Pardis C Sabeti

Affiliations

Soon will be listed here.

Abstract

Here we outline a next-generation RNA sequencing protocol that enables de novo assemblies and intra-host variant calls of viral genomes collected from clinical and biological sources. The method is unbiased and universal; it uses random primers for cDNA synthesis and requires no prior knowledge of the viral sequence content. Before library construction, selective RNase H-based digestion is used to deplete unwanted RNA - including poly(rA) carrier and ribosomal RNA - from the viral RNA sample. Selective depletion improves both the data quality and the number of unique reads in viral RNA sequencing libraries. Moreover, a transposase-based 'tagmentation' step is used in the protocol as it reduces overall library construction time. The protocol has enabled rapid deep sequencing of over 600 Lassa and Ebola virus samples-including collections from both blood and tissue isolates-and is broadly applicable to other microbial genomics studies.

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