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Transcript
BioRDF Task: Building a
Knowledgebase for Neuroscience
Eric Prud’hommeaux, W3C
BioRDF Introduction
• BioRDF participants
•
The task is lead by Kei Cheung (Yale)
• Has approximately 20 participants
• BioRDF activities include:
•
Explore the effectiveness of current tools for making data available as RDF/OWL
• Build a life sciences demo that spans from bench to bedside using RDF/OWL to help
scientist better understand the value of the Semantic Web
• Document our finding to help accelerate the adoption of the Semantic Web by others
• BioRDF Publications
•
A Prototype Knowledge Base for the Life Sciences - http://www.w3.org/TR/hcls-kb/
• Experience with the Conversion of SenseLab Databases to RDF/OWL –
http://www.w3.org/TR/hcls-senselab/
• More Information on the group is available at
•
http://esw.w3.org/topic/HCLSIG_BioRDF_Subgroup
Answering Questions
Goals: Get answers to questions posed to a body of
collective knowledge in an effective way
Knowledge used: Publicly available databases, and text
mining
Strategy: Integrate knowledge using careful modeling,
exploiting Semantic Web standards and technologies
Looking for Alzheimer Disease Targets
• Signal transduction pathways are
considered to be rich in “druggable”
targets
• CA1 Pyramidal Neurons are
known to be particularly damaged
in Alzheimer’s disease
• Casting a wide net, can we find
candidate genes known to be
involved in signal transduction and
active in Pyramidal Neurons?
Answering Questions with Google
Answering Questions with PubMed
Answering Questions across Data Sets
Integrating Heterogeneous Data Sets
PDSPki
Reactome
Gene
Ontology
BAMS
Entrez
Gene
Antibodies
Literature
NeuronDB
Allen
Brain
Atlas
SWAN
BrainPharm
Homologene
PubChem
AlzGene
Mammalian
Phenotype
MESH
Integrating Heterogeneous Data Sets
Integrating Heterogeneous Data Sets
PDSPki
Gene
Ontology
NeuronDB
Reactome
BAMS
Antibodies
Entrez
Gene
Allen Brain
Atlas
MESH
Literature
Mammalian
Phenotype
SWAN
AlzGene
BrainPharm
Homologene
PubChem
SPARQL Query Spanning Data Sources
Results: Genes, Processes
DRD1, 1812
ADRB2, 154
ADRB2, 154
DRD1IP, 50632
DRD1, 1812
DRD2, 1813
GRM7, 2917
GNG3, 2785
GNG12, 55970
DRD2, 1813
ADRB2, 154
CALM3, 808
HTR2A, 3356
DRD1, 1812
SSTR5, 6755
MTNR1A, 4543
CNR2, 1269
HTR6, 3362
GRIK2, 2898
GRIN1, 2902
GRIN2A, 2903
GRIN2B, 2904
ADAM10, 102
GRM7, 2917
LRP1, 4035
ADAM10, 102
ASCL1, 429
HTR2A, 3356
ADRB2, 154
PTPRG, 5793
EPHA4, 2043
NRTN, 4902
CTNND1, 1500
adenylate cyclase activation
adenylate cyclase activation
arrestin mediated desensitization of G-protein coupled receptor protein signaling pathway
dopamine receptor signaling pathway
dopamine receptor, adenylate cyclase activating pathway
dopamine receptor, adenylate cyclase inhibiting pathway
G-protein coupled receptor protein signaling pathway
G-protein coupled receptor protein signaling pathway
G-protein coupled receptor protein signaling pathway
G-protein coupled receptor protein signaling pathway
G-protein coupled receptor protein signaling pathway
G-protein coupled receptor protein signaling pathway
G-protein coupled receptor protein signaling pathway
G-protein signaling, coupled to cyclic nucleotide second messenger
G-protein signaling, coupled to cyclic nucleotide second messenger
G-protein signaling, coupled to cyclic nucleotide second messenger
G-protein signaling, coupled to cyclic nucleotide second messenger
G-protein signaling, coupled to cyclic nucleotide second messenger
glutamate signaling pathway
glutamate signaling pathway
glutamate signaling pathway
glutamate signaling pathway
integrin-mediated signaling pathway
negative regulation of adenylate cyclase activity
negative regulation of Wnt receptor signaling pathway
Notch receptor processing
Notch signaling pathway
serotonin receptor signaling pathway
transmembrane receptor protein tyrosine kinase activation (dimerization)
ransmembrane receptor protein tyrosine kinase signaling pathway
transmembrane receptor protein tyrosine kinase signaling pathway
transmembrane receptor protein tyrosine kinase signaling pathway
Wnt receptor signaling pathway
Many of the genes
are related to AD
through gamma
secretase
(presenilin) activity
Another View of the Query
http://hcls1.csail.mit.edu:8890/sparql/?query=prefix%20go%3A%20%3Chttp%3A%2F%2Fpurl.org%2Fobo%2Fowl%2FGO
%23%3E%0Aprefix%20rdfs%3A%20%3Chttp%3A%2F%2Fwww.w3.org%2F2000%2F01%2Frdfschema%23%3E%0Aprefix%20owl%3A%20%3Chttp%3A%2F%2Fwww.w3.org%2F2002%2F07%2Fowl%23%3E%0Apref
ix%20mesh%3A%20%3Chttp%3A%2F%2Fpurl.org%2Fcommons%2Frecord%2Fmesh%2F%3E%0Aprefix%20sc%3A%20
%3Chttp%3A%2F%2Fpurl.org%2Fscience%2Fowl%2Fsciencecommons%2F%3E%0Aprefix%20ro%3A%20%3Chttp%3A
%2F%2Fwww.obofoundry.org%2Fro%2Fro.owl%23%3E%0A%0Aselect%20%3Fgenename%20%3Fprocessname%0Awh
ere%0A%7B%20%20graph%20%3Chttp%3A%2F%2Fpurl.org%2Fcommons%2Fhcls%2Fpubmesh%3E%0A%20%20%20
%20%20%7B%20%3Fpaper%20%3Fp%20mesh%3AD017966%20.%0A%20%20%20%20%20%20%20%3Farticle%20sc
%3Aidentified_by_pmid%20%3Fpaper.%0A%20%20%20%20%20%20%20%3Fgene%20sc%3Adescribes_gene_or_gene
_product_mentioned_by%20%3Farticle.%0A%20%20%20%20%20%7D%0A%20%20%20graph%20%3Chttp%3A%2F%2
Fpurl.org%2Fcommons%2Fhcls%2Fgoa%3E%0A%20%20%20%20%20%7B%20%3Fprotein%20rdfs%3AsubClassOf%20
%3Fres.%0A%20%20%20%20%20%20%20%3Fres%20owl%3AonProperty%20ro%3Ahas_function.%0A%20%20%20%2
0%20%20%20%3Fres%20owl%3AsomeValuesFrom%20%3Fres2.%0A%20%20%20%20%20%20%20%3Fres2%20owl%
3AonProperty%20ro%3Arealized_as.%0A%20%20%20%20%20%20%20%3Fres2%20owl%3AsomeValuesFrom%20%3F
process.%0A%20%20%20graph%20%3Chttp%3A%2F%2Fpurl.org%2Fcommons%2Fhcls%2F20070416%2Fclassrelation
s%3E%0A%20%20%20%20%20%7B%7B%3Fprocess%20%3Chttp%3A%2F%2Fpurl.org%2Fobo%2Fowl%2Fobo%23pa
rt_of%3E%20go%3AGO_0007166%7D%0A%20%20%20%20%20%20%20union%0A%20%20%20%20%20%20%7B%3F
process%20rdfs%3AsubClassOf%20go%3AGO_0007166%20%7D%7D%0A%20%20%20%20%20%20%20%3Fprotein%
20rdfs%3AsubClassOf%20%3Fparent.%0A%20%20%20%20%20%20%20%3Fparent%20owl%3AequivalentClass%20%3
Fres3.%0A%20%20%20%20%20%20%20%3Fres3%20owl%3AhasValue%20%3Fgene.%0A%20%20%20%20%20%20%
7D%0A%20%20%20graph%20%3Chttp%3A%2F%2Fpurl.org%2Fcommons%2Fhcls%2Fgene%3E%0A%20%20%20%20
%20%7B%20%3Fgene%20rdfs%3Alabel%20%3Fgenename%20%7D%0A%20%20%20graph%20%3Chttp%3A%2F%2F
purl.org%2Fcommons%2Fhcls%2F20070416%3E%0A%20%20%20%20%20%7B%20%3Fprocess%20rdfs%3Alabel%20
%3Fprocessname%7D%0A%7D&format=&maxrows=50
Discoverable, Queryable and Accessible
on the Web
http://hcls1.csail.mit.edu/map/#Kcnip3@2850,Kcnd1@2800
Allen Brain Institute Servers
Javascript
SPARQL
AJAX
Query
http://www.brainmap.org://….0205032816_B.aff/TileGroup3/1-0-1.jpg
Google
Maps
API
Neurocommons Servers
Use Exhibit to Visualize Results
Technology
• So far about 350M triples (~20Gb on disk)
• Openlink Virtuoso - open source triple store
• Commodity Hardware: 2x2core duo/2 disks/8G Ram
Going Forwards
• Incorporate additional data sources into the HCLS KB
• Make the interface easier for scientists to use
• Focus on processes for updating the data sources
• Find additional places to host the HCLS KB
Conclusions
• The Semantic Web offers a flexible approach to data
integration
• BioRDF has integrated over a dozen neuroscience related
resources to simplify answering scientific questions
• The HCLS KB is accessible on the Web today
• Please let us know if you are interested in participating in
the BioRDF task