Karect: accurate correction of substitution, insertion and deletion errors for next-generation sequencing data

Amin Allam; Panos Kalnis; Victor Solovyev

doi:10.1093/bioinformatics/btv415

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Karect: accurate correction of substitution, insertion and deletion errors for next-generation sequencing data

Journal article

Open access

Peer reviewed

Karect: accurate correction of substitution, insertion and deletion errors for next-generation sequencing data

Amin Allam, Panos Kalnis and Victor Solovyev

BIOINFORMATICS, Vol.31(21), pp.3421-3428

01/11/2015

DOI: https://doi.org/10.1093/bioinformatics/btv415

PMID: 26177965

Abstract

Biochemical Research Methods

Biochemistry & Molecular Biology

Biotechnology & Applied Microbiology

Computer Science

Computer Science, Interdisciplinary Applications

Life Sciences & Biomedicine

Mathematical & Computational Biology

Mathematics

Physical Sciences

Science & Technology

Statistics & Probability

Technology

Motivation: Next-generation sequencing generates large amounts of data affected by errors in the form of substitutions, insertions or deletions of bases. Error correction based on the high-coverage information, typically improves de novo assembly. Most existing tools can correct substitution errors only; some support insertions and deletions, but accuracy in many cases is low. Results: We present Karect, a novel error correction technique based on multiple alignment. Our approach supports substitution, insertion and deletion errors. It can handle non-uniform coverage as well as moderately covered areas of the sequenced genome. Experiments with data from Illumina, 454 FLX and Ion Torrent sequencing machines demonstrate that Karect is more accurate than previous methods, both in terms of correcting individual-bases errors (up to 10% increase in accuracy gain) and post de novo assembly quality (up to 10% increase in NGA50). We also introduce an improved framework for evaluating the quality of error correction.

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Title: Karect: accurate correction of substitution, insertion and deletion errors for next-generation sequencing data
Creators - without role: Amin Allam - King Abdullah University of Science and Technology
Panos Kalnis - King Abdullah University of Science and Technology
Victor Solovyev - King Abdullah University of Science and Technology
Publication Details: BIOINFORMATICS, Vol.31(21), pp.3421-3428
Publisher: Oxford Univ Press
Number of pages: 8
Grant note: KAUST Base Research Fund
Identifiers: 9944474008331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article