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CATGGCGATATTGT CATGGCGCCAATAT CATGGCGCGCATTT CATGGCGTGGGGAT CATGGCTAATAAAT CATGGCTCAAGGAG CATGGCTGGACTCC CATGGCTGTGGCCA CATGGCTTTCGTGT CATGGCTTTTTGGC CATGGGAACCGACA CATGGGACCGCCCC CATGGGACCGCTCA CATGGGATCACAAT CATGGGCAACGATC CATGGGCAGCAAGC CATGGGCAGCAATT.
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CATGGCGATATTGT CATGGCGCCAATAT CATGGCGCGCATTT CATGGCGTGGGGAT CATGGCTAATAAAT CATGGCTCAAGGAG CATGGCTGGACTCC CATGGCTGTGGCCA CATGGCTTTCGTGT CATGGCTTTTTGGC CATGGGAACCGACA CATGGGACCGCCCC CATGGGACCGCTCA CATGGGATCACAAT CATGGGCAACGATC CATGGGCAGCAAGC CATGGGCAGCAATT A SAGE approach to discovery of genes involved in autophagic cell death S. Gorski, Genome Sciences Centre, BC Cancer Agency
I. Apoptosis II. Autophagic PCD Types of Programmed Cell death (PCD) (adapted from Baehrecke, 2002)
autophagic • stage-specific • synchronous (@18ºC) 20 hr 24 hr 26 hr (adapted from Jiang et al., 1997) • known cell death genes are regulated transcriptionally RT - + - + - + - + - + - + 16 18 20 22 23 24 hr (APF, 18°C) diap2 rpr hid Drosophila salivary gland PCD
Serial Analysis of Gene Expression (SAGE) (Velculescu et al., 1995) • sequence based method to generate • global gene expression profiles • potential for novel gene discovery • adaptable
known or predicted genes genomic DNA and EST (but no annotated gene) genomic DNA only no match Salivary gland SAGE Library and tag mapping summary 6.5% 25.3% 61.9% 6.2%
732 genes have unknown functions 377 of these genes were not annotated (GadFly Release 2) 48 correspond solely to salivary gland ESTs 1244 genes are expressed differentially (p<.05) prior to salivary gland PCD 512 genes have associated biological annotations (Gene Ontology in Flybase)
rpr hid ark dronc crq iap2 BFTZ-F1 BR-C E74 E93 Cell Death EcR/USP E75 SAGE Identifies Genes Associated Previously With Salivary Gland Death Tag Frequency
Genes associated with autophagic PCD Expression fold- difference (16 hr vs 23 hr) Trans- cription* Protein synthesis Immune response/ TNF-related Autophagy Hormone related Signal transduction Apoptosis Unknowns
Strategy for characterizing differentially expressed genes • Prioritization • mammalian ortholog • data mining • Mutant analysis • existing mutants RNAi in Drosophila cells RNAi in mammalian cells RNAi in vivo (Gal4/UAS) RNAi in tumour models
GadFly – Swissprot Homology Table Extract entries based on keyword search II. Cross-species Cross-physiology Comparisons Drosophila autophagic cell death Human cancer SCC-S2 downregulated 7-fold in human mammary gland ductal carcinoma vs normal CG4091 upregulated 102-fold in 16 vs 23 hr salivary glands Mining Expression Data in Drosophila I. Keyword-based Data Mining e.g. Keyword apoptosis: 20 associations
Mutant analyses indicate that akap200 has a PCD phenotype wild-type (41 hr APF) akap200EP2254 (41 hr APF)
Acknowledgements Genome Sciences Centre Victor Ling Marco Marra Drosophila PCD Suganthi Chittaranjan Doug Freeman Carrie Anderson Shaun Coughlin Claire Hou Bioinformatics Steven Jones Erin Pleasance Richard Varhol Scott Zuyderduyn GSC Sequencing Group University of Maryland Biotech Institute Eric Baehrecke University of Washington Stephen Jackson www.bcgsc.ca http://sage.bcgsc.ca/tagmapping/ http://www.bcgsc.ca/lab/fg/dsage/ BC Cancer Agency BC Cancer Foundation
CATGAGGAGTGAAT AAAAA Gene X Tag-to-gene Mapping in Drosophila (E. Pleasance, M. Marra and S. Jones, submitted) • Platform: Queryable ACEDB database • Resources: • Drosophila genomic sequence and annotation (GadFly Release 2) • predicted UTRs • 259,620 ESTs and full-length cDNAs (BDGP) • 5,181 salivary gland 3’ ESTs (GSC)
Gene expression is reduced in a salivary gland death-defective mutant • E93 is an ecdysone-induced gene that encodes a DNA binding protein required for salivary gland cell death (Lee et al., 2000, 2001) Fold-difference In expression (16 hr vs 23 hr)
wild-type Akap200 Akap200 has a PCD phenoytpe