State of CBIL

1. State of CBIL Current and Future Directions

2. Computational Biology and Informatics LaboratoryOctober, 2001

3. CBIL Research • Gene Discovery • EST analysis • Genomic sequence analysis • Gene Regulation • Microarray analysis • Promoter/ regulatory region analysis • Biological data representation • Data integration • Ontology

4. CBIL: Gene Discovery • Gene Annotation (Kolchanov) • Gene coding potential • Gene function prediction • AllGenes • EPConDB (Kaestner, Permutt, Melton) • StemCellDB/ StroCDB (Lemischka, Moore) • Mouse chromosome 5 (Bucan) • PlasmoDB (Roos, Kissinger) • ParaDB (Roos) • Posters

5. CBIL: Gene Regulation • PaGE • PROM_REC • TESS • Pancreatic development (Kaestner) • TGF-B signaling (Bottinger) • Fetal globin expression in adults (Fortina) • Brain disease and injury (Eberwine, Meaney) • Endothelial cell function (Davies)

6. CBIL: Biological Data Representation • Genomic Unified Schema • RNA Abundance Database • Connecting to a brain atlas (Nissanov, Davidson) • Microarray ontology (MGED)

7. CBIL Project Architecture Sequence & annotation Gene index (ESTs and mRNAs) Microarray expression data experimental annotation Relational DB (Oracle) with Perl object layer GUS RAD

8. Controlled vocabs. free text • GO • Species • Tissue • Dev. Stage under development GUS: Genomics Unified Schema • Genes, gene models • STSs, repeats, etc • Cross-species analysis Genomic Sequence RAD RNA Abundance DB • Characterize transcripts • RH mapping • Library analysis • Cross-species analysis • DOTS Transcribed Sequence Special Features • Arrays • SAGE • Conditions Transcript Expression • Ownership • Protection • Algorithm • Evidence • Similarity • Versioning • Domains • Function • Structure • Cross-species analysis Protein Sequence Pathways Networks • Representation • Reconstruction

9. Clusters vs. Contig Assemblies UniGene Transcribed Sequences (DOTS) CAP4: Consensus Sequences -Alternative splicing -Paralogs BLAST: Clusters of ESTs & mRNAs

10. Assembled Transcripts About 3 million human EST and mRNA sequences used Combined into 797,028assemblies Cluster into 150,006 “genes” Can identify a protein for 76,771 genes And predict a function for 24,127 genes About 2 million mouse EST and mRNA sequences used Combined into 355,770 assemblies Cluster into 74,024 “genes” Can identify a protein for 34,008 genes And predict a function for 15,403 genes

11. Bridging Fingerprint Contigs and RH Maps on Mouse Chromosome 5 Crabtree et al. Genome Research 2001 Fingerprint Map Chr. 5 RH Map

12. Predicting Gene Ontology Functions

13. AllGenes

14. AllGenes Enhancements: Annotated Entries

15. AllGenes Enhancements: Genomic Data

16. http://plasmodb.org

17. Contig View • OM Restriction Sites • Microsatellites • Self-BLAST • NRDB-BLAST • SAGE Tags • EST/GSS • FullPHAT • GeneFinder • GlimerM • Annotation (chr2-TIGR)

18. Experiment Raw Data Platform Metadata Processed Data Algorithm RAD: RNA Abundance Database Compliant with the MGED standards

19. Microarray Gene Expression Database group (MGED) International effort on microarray data standards: • Develop standards for storing and communicating microarray-based gene expression data • defining the minimal information required to ensure reproducibility and verifiability of results and to facilitate data exchange (MIAME, MAGEML-MAGEDOM) • collecting (and where needed creating) controlled vocabularies/ ontologies. • developing standards for data comparison and normalization. http://www.mged.org

20. EPConDB Pathway query

21. Microarray Analysis: PaGE

22. Identify shared TF binding sites Genomic alignment and comparative Sequence analysis TESS (Transcription Element Search Software) PROM-REC (Promoter recognition) RAD GUS EST clustering and assembly

23. Promoter Analysis: PROM_REC

24. http:www.cbil.upenn.edu

25. CBIL: Chris Stoeckert Vladimir Babenko Brian Brunk Jonathan Crabtree Sharon Diskin Greg Grant Yuri Kondrakhin Georgi Kostov Phil Le Li Li Junmin Liu Elisabetta Manduchi Joan Mazzarelli Shannon McWeeney Debbie Pinney Angel Pizarro Jonathan Schug PlasmoDB collaborators: David Roos Martin Fraunholz Jesse Kissinger Jules Milgram Ross Koppel, Monash U. Malarial Genome Sequencing Consortium (Sanger Centre, Stanford U., TIGR/NMRC) EPConDB collaborators: Klaus Kaestner Marie Scearce Doug Melton, Harvard Alan Permutt, Wash. U Comparative Sequence Analysis Collaborators: Maja Bucan Shaying Zhao Whitehead/MIT Center for Genome Research Acknowledgements CAP4 provided by Paracel

27. Sequence/ Sequence annotation Pathways/ Networks Gene expression experiment Proteomics, Metabolomics CBIL: Future Directions