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Overview of The Pathway Tools Software
Overview of The Pathway Tools Software
What is a Pathway/Genome Database and What is Pathway Tools?
A PGDB is a bioinformatics database (DB) that integrates genomic data with
detailed functional annotations of the genome, such as descriptions of
metabolic and signalling pathways, and of the regulatory network.
The EcoCyc and HumanCyc DBs are PGDBs (see
EcoCyc.org and
HumanCyc.org).
A PGDB serves as a central resource for
capturing, integrating, and disseminating new scientific findings
about the organism. It is a vehicle for tracking the
evolving annotation of the genome, metabolic network, and genetic
network of the organism, and for communicating that evolving knowledge
through the Web. All genome annotations produced to date are
incomplete, and contain significant numbers of errors. For organisms
with active experimental communities, ongoing efforts are required to
update those annotations to reflect new computational inferences, and
new gene identifications and pathways reported in the experimental
literature.
Pathway Tools supports creation, editing, querying,
visualization, and analysis of PGDBs. The software also allows users to
publish a PGDB on the Web for access by the scientific community.
For a comprehensive summary of the Pathway Tools capabilities click here.
PathoLogic: Creation of PGDBs
The PathoLogic component of Pathway Tools accepts an annotated genome in Genbank or GFF format as its input.
Its output is a new PGDB.
PathoLogic contains several computational inference algorithms:
- It predicts the metabolic reactions and pathways of an organism from its annotated genome.
- It predicts what genes code for missing enzymes within the
predicted metabolic pathways, typically identifying on the order
of 100 new gene functions in a microbial genome.
- It predicts the operons of a bacterium.
- It predicts transport reactions from transporter functional assignments
Pathway/Genome Navigator: Querying and Visualization of PGDBs
The Bioinformatics datatypes supported by the Pathway/Genome Navigator component of Pathway Tools are
listed below. For each of the datatypes , Pathway Tools provides
querying capabilities, visualization tools (such as for drawing pathways
and genome maps), and interactive editing tools to allow users to update
data (such as modifying a metabolic pathway or defining a new DNA
binding site for a transcription factor).
The visualization and querying capabilities allow PGDBs to be published
on the Web, or to be accessed as a desktop application on the PC, Mac, and Linux platforms.
The desktop and Web capabilities of the software overlap substantially, with some
differences
[details].
- Metabolic and signalling pathways
Full-sized image
- Metabolic enzymes, reactions, and small-molecule metabolites
- Transcription factors, operons, promoters, and transcription-factor
binding sites
- Transport proteins
- Genome maps for closed and unclosed genomes
Full-sized image
- Individual growth media; growth observation studies under multiple growth conditions;
gene essentiality information
- Nucleic-acid sequences, amino-acid sequences, protein features, Gene Ontology annotations
Pathway/Genome Navigator: Analysis of Large-Scale Datasets
Pathway Tools can aid analyses of gene expression, protein
expression, and metabolomics experiments through the Pathway Tools
Omics Viewers, which allow omics datasets to be graphically painted
onto three system-level diagrams: a diagram of the full metabolic
network of the organism, a diagram of the full regulatory network of
the organism, and a diagram of the full genome of the organism. The
software can produce animated displays of a series of omics
measurements. It can also depict data from multiple omics datatypes
simultaneously, such as mixing gene-expression and metabolomics data
on one diagram.
Click on images to see full-size.
Other Pathway Tools capabilities for analysis of large-scale datasets include:
- The Omics Dashboard provides a system-oriented view of omics datasets,
enabling the user to view aggregate responses of cellular systems such as biosynthesis
and DNA repair, and responses and the pathway and gene levels:
- Enrichment analysis of gene sets and metabolite sets to pathways and Gene Ontology terms
- Graphing of omics data values for selected genes or metabolites, or for entire pathways
- Visualization of omics data on individual pathways and on multi-pathway diagrams called pathway collages
Other Pathway/Genome Navigator Operations
- Search for optimal sequences of reactions connecting two metabolites
- Find dead-end metabolites in metabolic networks
- Identify choke points (potential drug targets) in metabolic networks
- Comparative operations, including comparing the full metabolic networks of two or more organisms
- Automatic generation of posters depicting the genome and the complete metabolic network
- BLAST searches and sequence pattern searches against the genome
MetaFlux: Flux-Balance Analysis
The MetaFlux component of Pathway Tools supports development and execution of steady-state metabolic
flux models using flux-balance analysis. Its gap filler module accelerates model development by
suggesting improvements to a model such as addition of missing reactions. Reaction fluxes computed
by MetaFlux can be painted onto the metabolic map diagram to speed understanding of modeling results.
MetaFlux can simulate gene knock outs for selected genes, or for all genes in the organism.
Pathway/Genome Editors: Curation Tools
Pathway Tools includes a suite of interactive editing tools for
adding new information to a PGDB, and for updating existing information.
Tools such as a pathway editor, gene editor, and enzyme editor speed
database development.
Other Aspects of Pathway Tools
Pathway Tools has a large user community, who have already successfully
used the software to create database for many organisms.
Extensive user documentation is available, as is an online information
site at bioinformatics.ai.sri.com/ptools/.
The software is freely available to academic and government users. Users
own and therefore control the PGDBs that they create.
How to Learn More
