Details:

Alternative Title:
BMC Genomics
Personal Author:
Shepard, Samuel S. ; Meno, Sarah ; Bahl, Justin ; Wilson, Malania M. ; Barnes, John ; ... More +
Shepard, Samuel S. ; Meno, Sarah ; Bahl, Justin ; Wilson, Malania M. ; Barnes, John ; Neuhaus, Elizabeth Less -
Description:
Background

Deep sequencing makes it possible to observe low-frequency viral variants and sub-populations with greater accuracy and sensitivity than ever before. Existing platforms can be used to multiplex a large number of samples; however, analysis of the resulting data is complex and involves separating barcoded samples and various read manipulation processes ending in final assembly. Many assembly tools were designed with larger genomes and higher fidelity polymerases in mind and do not perform well with reads derived from highly variable viral genomes. Reference-based assemblers may leave gaps in viral assemblies while de novo assemblers may struggle to assemble unique genomes.

Results

The IRMA (iterative refinement meta-assembler) pipeline solves the problem of viral variation by the iterative optimization of read gathering and assembly. As with all reference-based assembly, reads are included in assembly when they match consensus template sets; however, IRMA provides for on-the-fly reference editing, correction, and optional elongation without the need for additional reference selection. This increases both read depth and breadth. IRMA also focuses on quality control, error correction, indel reporting, variant calling and variant phasing. In fact, IRMA’s ability to detect and phase minor variants is one of its most distinguishing features. We have built modules for influenza and ebolavirus. We demonstrate usage and provide calibration data from mixture experiments. Methods for variant calling, phasing, and error estimation/correction have been redesigned to meet the needs of viral genomic sequencing.

Conclusion

IRMA provides a robust next-generation sequencing assembly solution that is adapted to the needs and characteristics of viral genomes. The software solves issues related to the genetic diversity of viruses while providing customized variant calling, phasing, and quality control. IRMA is freely available for non-commercial use on Linux and Mac OS X and has been parallelized for high-throughput computing.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-016-3030-6) contains supplementary material, which is available to authorized users.


Subjects:
[+]
Deep Sequencing Ebola High Throughput Influenza Methodology Article NGS Public Health Surveillance
Source:
BMC Genomics. 17(1).
Pubmed ID:
27595578
Pubmed Central ID:
PMC5011931
Document Type:
Journal Article
Collection(s):
CDC Public Access
Main Document Checksum:
[+]
urn:sha256:7afec016a9e08f3e9b06b16bf2a8074b39949e2a033cddb9b2aefcb410ff26d0
Download URL:
https://stacks.cdc.gov/view/cdc/41374/cdc_41374_DS1.pdf
File Type:

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