MetaPathways: a modular pipeline for constructing pathway/genome databases from environmental sequence information

UBC Faculty Research and Publications

MetaPathways: a modular pipeline for constructing pathway/genome databases from environmental sequence information Konwar, Kishori M; Hanson, Niels W; Pagé, Antoine P; Hallam, Steven J

Abstract

Background. A central challenge to understanding the ecological and biogeochemical roles of microorganisms in natural and human engineered ecosystems is the reconstruction of metabolic interaction networks from environmental sequence information. The dominant paradigm in metabolic reconstruction is to assign functional annotations using BLAST. Functional annotations are then projected onto symbolic representations of metabolism in the form of KEGG pathways or SEED subsystems. Results Here we present MetaPathways, an open source pipeline for pathway inference that uses the PathoLogic algorithm to map functional annotations onto the MetaCyc collection of reactions and pathways, and construct environmental Pathway/Genome Databases (ePGDBs) compatible with the editing and navigation features of Pathway Tools. The pipeline accepts assembled or unassembled nucleotide sequences, performs quality assessment and control, predicts and annotates noncoding genes and open reading frames, and produces inputs to PathoLogic. In addition to constructing ePGDBs, MetaPathways uses MLTreeMap to build phylogenetic trees for selected taxonomic anchor and functional gene markers, converts General Feature Format (GFF) files into concatenated GenBank files for ePGDB construction based on third-party annotations, and generates useful file formats including Sequin files for direct GenBank submission and gene feature tables summarizing annotations, MLTreeMap trees, and ePGDB pathway coverage summaries for statistical comparisons. Conclusions MetaPathways provides users with a modular annotation and analysis pipeline for predicting metabolic interaction networks from environmental sequence information using an alternative to KEGG pathways and SEED subsystems mapping. It is extensible to genomic and transcriptomic datasets from a wide range of sequencing platforms, and generates useful data products for microbial community structure and function analysis. The MetaPathways software package, installation instructions, and example data can be obtained from http://hallam.microbiology.ubc.ca/MetaPathways .

Item Metadata

Title	MetaPathways: a modular pipeline for constructing pathway/genome databases from environmental sequence information
Creator	Konwar, Kishori M; Hanson, Niels W; Pagé, Antoine P; Hallam, Steven J
Publisher	BioMed Central
Date Issued	2013-06-21
Description	Background. A central challenge to understanding the ecological and biogeochemical roles of microorganisms in natural and human engineered ecosystems is the reconstruction of metabolic interaction networks from environmental sequence information. The dominant paradigm in metabolic reconstruction is to assign functional annotations using BLAST. Functional annotations are then projected onto symbolic representations of metabolism in the form of KEGG pathways or SEED subsystems. Results Here we present MetaPathways, an open source pipeline for pathway inference that uses the PathoLogic algorithm to map functional annotations onto the MetaCyc collection of reactions and pathways, and construct environmental Pathway/Genome Databases (ePGDBs) compatible with the editing and navigation features of Pathway Tools. The pipeline accepts assembled or unassembled nucleotide sequences, performs quality assessment and control, predicts and annotates noncoding genes and open reading frames, and produces inputs to PathoLogic. In addition to constructing ePGDBs, MetaPathways uses MLTreeMap to build phylogenetic trees for selected taxonomic anchor and functional gene markers, converts General Feature Format (GFF) files into concatenated GenBank files for ePGDB construction based on third-party annotations, and generates useful file formats including Sequin files for direct GenBank submission and gene feature tables summarizing annotations, MLTreeMap trees, and ePGDB pathway coverage summaries for statistical comparisons. Conclusions MetaPathways provides users with a modular annotation and analysis pipeline for predicting metabolic interaction networks from environmental sequence information using an alternative to KEGG pathways and SEED subsystems mapping. It is extensible to genomic and transcriptomic datasets from a wide range of sequencing platforms, and generates useful data products for microbial community structure and function analysis. The MetaPathways software package, installation instructions, and example data can be obtained from http://hallam.microbiology.ubc.ca/MetaPathways .
Subject	Environmental pathway/Genome Database (ePGDB); Metagenome; Pathway tools; PathoLogic; MetaCyc; Microbial community; Metabolism; Metabolic interaction networks
Genre	Article
Type	Text
Language	eng
Date Available	2015-08-26
Provider	Vancouver : University of British Columbia Library
Rights	Attribution 4.0 International (CC BY 4.0)
DOI	10.14288/1.0228389
URI	http://hdl.handle.net/2429/54660
Affiliation	Microbiology and Immunology, Department of; Science, Faculty of
Citation	BMC Bioinformatics. 2013 Jun 21;14(1):202
Publisher DOI	10.1186/1471-2105-14-202
Peer Review Status	Reviewed
Scholarly Level	Faculty
Copyright Holder	Konwar et al.; licensee BioMed Central Ltd.
Rights URI	http://creativecommons.org/licenses/by/4.0/
Aggregated Source Repository	DSpace

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