Scaffolding and Validation of Bacterial Genome Assemblies Using Optical Restriction Maps

TitleScaffolding and Validation of Bacterial Genome Assemblies Using Optical Restriction Maps
Publication TypeJournal Articles
Year of Publication2008
AuthorsNagarajan N, Read TD, Pop M
JournalBioinformatics
Volume24
Issue10
Pagination1229 - 1235
Date Published2008/05/15/
ISBN Number1367-4803, 1460-2059
Abstract

Motivation: New, high-throughput sequencing technologies have made it feasible to cheaply generate vast amounts of sequence information from a genome of interest. The computational reconstruction of the complete sequence of a genome is complicated by specific features of these new sequencing technologies, such as the short length of the sequencing reads and absence of mate-pair information. In this article we propose methods to overcome such limitations by incorporating information from optical restriction maps.Results: We demonstrate the robustness of our methods to sequencing and assembly errors using extensive experiments on simulated datasets. We then present the results obtained by applying our algorithms to data generated from two bacterial genomes Yersinia aldovae and Yersinia kristensenii. The resulting assemblies contain a single scaffold covering a large fraction of the respective genomes, suggesting that the careful use of optical maps can provide a cost-effective framework for the assembly of genomes.
Availability: The tools described here are available as an open-source package at ftp://ftp.cbcb.umd.edu/pub/software/soma
Contact: mpop@umiacs.umd.edu

URLhttp://bioinformatics.oxfordjournals.org/content/24/10/1229
DOI10.1093/bioinformatics/btn102