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Gene Inactivation Michael Snyder October 2, 2006

Gene Inactivation Michael Snyder October 2, 2006. Advantage. Problems. Arguably the best way to learn about gene function. No phenotype Effects might be indirect. Three General Methods. 1) Insertional Mutagenesis Transposon Strategies Insertional Mutations 2) Systematic Knockouts

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Gene Inactivation Michael Snyder October 2, 2006

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  1. Gene InactivationMichael SnyderOctober 2, 2006

  2. Advantage Problems • Arguably the best way to learn about gene function • No phenotype • Effects might be indirect

  3. Three General Methods 1) Insertional Mutagenesis • Transposon Strategies • Insertional Mutations 2) Systematic Knockouts • Selectable Marker Replacement 3) RNAi

  4. Transposon Knockouts Marker Transposase Transposon

  5. Tn Mutagenesis of Mycoplasma Genitalium (480 Genes) Method: Mutagenize Genome With Library of Mutations See What Genes Obtain Mutations Deduce the Rest (265-350) Are Esssential for Viability = Insertion Allele Hutchison et al., Science 286, 2089 (1999)

  6. Gene Traps: Gene Fusion lacZ--Missing Promotor & ATG Gene Fusions

  7. A Multipurpose Transposon

  8. Plasmid Preps A B C Transform Diploid Yeast & Identify In-Frame Fusions X X Induce Cre Localize HA-Tagged Proteins Analyze Phenotypes Screening Approach mTn Transposon Yeast DNA Library

  9. Screening Summary • 25,440 Vegetatively Expressed Fusions • 277 Sporulation Induced • ~ 4,000 Genes Tagged

  10. Genes Tagged

  11. A Novel ORF Antisense to 25S rDNA 5S 18S 5.8S 25S 5S 18S 5.8S 25S 124 codons

  12. Gene Discovery 157 Additional Highly Expressed ORFs by Transposon Tagging

  13. Phenotype Macroarrays

  14. Screening the Collection

  15. Mice • Retrovirus • Efficient Transfer • Gene Trapping

  16. Lexicon Gene Trapping SA = Splicing acceptor

  17. Lexicon Features • 270,000 lines affecting >20,000 transcribed regions (50% of total genes?) • Mutagenesis is carried out in ES cells-thus can generate mutant mice

  18. Transposon/Insertional Mutagenesis Approach Advantages • Simple-can generate large numbers of insertions • Relatively inexpensive • Can be used to find genes • Get many alleles • Can follow expression and tag proteins

  19. Disadvantages • Biased-Hard to hit all Genes • May not generate null alleles

  20. Bar Code PCR Disruptions P r i m e r 1 MX R Kan (G418 ) P r i m e r 2 PCR B a r C o d e 2 Bar Code 1 C o m m o n P r i m e r S i t e s Transform Diploid Yeast AUG TAA R MX Kan (G418 ) Sporulate R MX Haploid Kan (G418 ) 1 2

  21. Yeast Strains With Tagged Knockouts

  22. Functional Analysis of Knockout Strains

  23. Microarray Results

  24. Systematic Deletions >95 % of Yeast Genes Disrupted~1000 Essential Genes~5,000 Nonessential Genes

  25. Systematic Knockouts Advantages • Gives null phenotype • Comprehensive • Bar Coding Disadvantages • Expensive • Limited alleles (No reporter constructs) • Relies on Annotated Sequence

  26. Using Deletions to Profile Drug Sensitivity Giaever et al. Nature Genetics 1999 vol 21, 278-283

  27. Using Deletions to Profile Drug Sensitivity YMR007 ALG7 Giaever et al. Nature Genetics 1999 vol 21, 278-283

  28. Calcineurin Signalling Pathway Marton et al. Nature Med. Vol 4, 1293-1301.

  29. Drug Gives Similar Expression Profile to K/O: FK506 Calcineurin Marton et al. Nature Med. Vol 4, 1293-1301.

  30. Identification of the Dyclonine Target -Dyclonine: active ingredients of Sucrets -Give a profile like Ergosterol mutant Phenotype similar to Erg2 (sterol isomerase) -Human Sigma receptor is closest to Erg2 -Sigma receptor regulate K+ conductance Model: Dyclonine reduce K+ current & inhibits nerve conductance

  31. Clustering Genes

  32. The Same Intermediate Accumulates in Dyclonine and Erg2 Mutant Cells

  33. C. elegans RNAi = RNA interference + AA dsRNA AAAAA AA mRNA dsRNA inhibits gene expression by degrading its complementary mRNA

  34. Genome Wide Approach ORF Clone genes into E. coli Expression vector that makes dsRNA Feed Worm E. coli; Score phenotype

  35. RNAi 16,757 (86%) C. elegans Genes RNAied; 1,722 Mutant phenotypes Ahringer et al., Kohara et al. Can be used for many organisms Drosophila, Mammalian Cells

  36. Mammalian RNAi Retrovirus Vector Packaging Cells Virus Infect Cells shRNA Expression From RNAi consortium

  37. Identification of Tumor Suppressors Using RNAi Klofcshoten et al. (2005) Cell 121, 849-858 1° Fibroblasts from humans die Tr(-onc) Engineered Fibroblasts (hTERT, small t Antigen, p53-, p16-) “almost transformed” Tr(-onc) Engineered Fibroblasts + RASV12 Transformed and form colonies

  38. Identification of Tumor Suppressors Using RNAi Tr(-onc) cells shRNA library (against 4000 genes) New Tumor Suppressor: PITX1 Klofschoten et al. (2005) Cell 121, 849-858

  39. RNAi Advantages • Simple and Inexpensive • Systematic method--Comprehensive • Knockout expression of gene families Disadvantages • Some Genes Not Affected • Limited alleles • Off target effects

  40. Uses of Knockouts: Summary • Score phenotype to understand gene function • Group different genes together based on phenotype • Find new interesting genes • Drug discovery

  41. Confirming a Drug Target

  42. Chromosome IX

  43. Transform Diploid Yeast & Identify In-Frame Fusions Induce Cre Localize HA-Tagged Proteins Analyze Phenotypes Screening Approach Plasmid Preps

  44. Targeted Gene Knockouts

  45. Immunofluorescence Patterns Nuclear 395 Nucleolar 54 Nuclear rim / ER 93 Mitochondrial 166 Spindle pole body /MTs 6 Cell periphery 46 Cytoplasmic patches / dots 386 Cell neck 10 General cytoplasmic 1,247 TOTAL Strains Screened 6,750

  46. Lys21 YCR004 HA DAPI

  47. Cin8 Bni4 HA DAPI

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