Tag Archives: PathCase

What’s the Answer? Metabolomic databases

BioStar is a site for asking, answering and discussing bioinformatics questions. We are members of thecommunity and find it very useful. Often

questions and answers arise at BioStar that are germane to our readers (end users of genomics resources).Every Thursday we will be highlighting one of those questions and answers here in this thread. You can ask questions in this thread, or you can always join in at BioStar.

This week’s highlighted question is….

Know of any human metabolomics databases?

The answers?

HMDB, Pathcase and PolySearch (though latter isn’t really a metabolomics database, more of a search engine.)

Have any others?

 

 

(you might have noticed a second WTA post, it will be up later. Blog glitch.)

Tip of the Week: A year in tips III (last half of 2010)

As you may know, we’ve been doing tips-of-the-week for three years now. We have completed around 150 little tidbit introductions to various resources. At the end of the year we’ve established a sort of holiday tradition: we are doing a summary post to collect them all. If you have missed any of them it’s a great way to have a quick look at what might be useful to your work.

Here are the tips from the first half of the year, and below you will find the tips from the last half of 2010 (you can see past years’ tips here: 2008 I2008 II2009 I2009 II):

July

July 7: Mint for Protein Interactions, an introduction to MINT to study protein-protein interactions
July 14: Introduction to Changes to NCBI’s Protein Database, as it states :D
July 21: 1000 Genome Project Browser, 1000 Genomes project has pilot data out, this is the browser.
July 28: R Genetics at Galaxy, the Galaxy analysis and workflow tool added R genetics analysis tools.

August

August 4: YeastMine, SGD adds an InterMine capability to their database search.
August 11: Gaggle Genome Browser, a tool to allow for the visualization of genomic data, part of the “gaggle components”
August 18: Brenda, comprehensive enzyme information.
August 25: Mouse Genomic Pathology, unlike other tips, this is not a video but rather a detailed introduction to a new website.

September

September 1: Galaxy Pages, and introduction to the new community documentation and sharing capability at Galaxy.
September 8: Varitas. A Plaid Database. A resource that integrates human variation data such as SNPs and CNVs.
September 15: CircuitsDB for TF/miRNA/gene regulation networks.
September 21: Pathcase for pathway data.
September 29: Comparative Toxicogenomics Database (CTD), VennViewer. A new tool to create Venn diagrams to compare associated datasets for genes, diseases or chemicals.

October

October 6: BioExtract Server, a server that allows researcher to store data, analyze data and create workflows of data.
October 13: NCBI Epigenomics, “Beyond the Genome” NCBI’s site for information and data on epigenetics.
October 20: Comparing Microbial Databases including IMG, UCSC Microbial and Archeal browsers, CMR and others.
October 27: iTOL, interactive tree of life

November

November 3: VISTA Enhancer Browser explore possible regulatory elements with comparative genomics
November 10: Getting canonical gene info from the UCSC Browser. Need one gene version to ‘rule them all’?
November 17: ENCODE Data in the UCSC Genome Browser, an entire 35 minute tutorial on the ENCODE project.
November 24: FLink. A tool that links items in one NCBI database to another in a meaningful and weighted manner.

December

December 1: PhylomeDB. A database of gene phylogenies of many species.
December 8: BioGPS for expression data and more.
December 15: RepTar, a database of miRNA target sites.

Tip of the Week: PathCase for pathway data

We spend a lot of time exploring genomic data, variations, and annotations. But of course a linear perspective on the genes and sequences is not the only way to examine the data. Understanding the pathways in which genes and molecular entities interact is crucial to understanding systems biology.

There are a number of tools which can help you to visualize and explore this kind of data. KEGG is one of the most venerable tools in bioinformatics, BioCyc is well known and used, Reactome is one of our favorites. Recently NCBI BioSystems has come along, and the BioModels tool at EBI provides more data of this type as well. Pathway Interaction Database is another place to try. What you’ll find is that each one has different emphasis, species focus or data sets available, and different tools to use to graphically display the databases. The ways to customize or interact with the data will vary as well. So you may need to try several to find the one you want for your purposes.

But for today’s tip of the week I will highlight PathCase, a Pathways Database System from Case Western Reserve University. This is a  tool I’ve  had my eye on for a number of years, and they continue to add new features and data sets to their visualization and search interface which are very nicely done.

PathCase offers you several ways to browse and search for pathways, processes, organisms, and also molecular entities (such as ATP, ions, etc) as well as genes and proteins. It’s all integrated into the system, so when you find an item of interest you can move to the other related pieces.  For example, from the Pathways you can find genes and learn more about the genes. From genes you can load the pathways in which they participate.

When you have the pathway graphics loaded, you can interact with that pathway by clicking, dragging, re-organizing and more. Right-clicking offers more details about the items and ways to visualize the data. One option I didn’t have time to show in the movie is that you can use the H20/CO2 box to load up pathways that are linked to the one you are looking at and load those up, going even further along any route that you might be interested in. Here’s just a quick sample of that: from the NARS2 gene page I loaded the alanine pathway, and then added the fatty acid metabolism pathway. Now I can explore both of them with all the standard PathCase tools and understand many of their relationships. Once you start exploring these pathways you be amazed at how complex visualizations are possible.

So if you are interested in biological pathways, exploring them and representing them, check out PathCase.

PathCase site: http://nashua.cwru.edu/pathwaysweb/

Reference:
Elliott, B., Kirac, M., Cakmak, A., Yavas, G., Mayes, S., Cheng, E., Wang, Y., Gupta, C., Ozsoyoglu, G., & Meral Ozsoyoglu, Z. (2008). PathCase: pathways database system Bioinformatics, 24 (21), 2526-2533 DOI: 10.1093/bioinformatics/btn459