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LECTURES 3/4. CONSTRUCTING and SCREENING cDNA LIBRARIES to ISOLATE NEW GENES ORIGINAL ARTICLES: CLONING BY COMPLEMENTATION: Lew, D, Dulic, V, and Reed SI. 1991. Isolation of three novel human cyclins by rescue of G1 Cyclin (Cln) in yeast. Cell 66:1127-1206. DIFFERENTIAL HYBRIDIZATION: **Davis, RL, Weintraub, H, and Lassar, A. 1987. Expression of a single transfected cDNA converts fibroblasts to myoblasts. Cell 51:987-1000. The Retrovirus Life Cycle Nobel Laureates 1975 David Baltimore Renalto Dulbecco Howard Temin Reverse Transcriptase: RNA-dependent DNA polymerase -Requires a primer for polymerization activity (RNA or DNA) -Also Converts ssRNA to double stranded DNA Therefore has DNA-dependent DNA polymerase activity as well -No 3' exo-activity (no proofreading); Has RNaseH activity (destroys RNA in a DNA/RNA hybrid). How is mRNA primed for RT? A) mRNA has polyA tails...thus can use oligo dT as a primer B) Random primers: synthesize primers (usually around 10-15mers) of RANDOM sequence (put in all four base pairs for each cycle of automated DNA synthesis). This will result in internal, random priming of mRNA molecules. Double-Stranded cDNA Enzyme List: First strand: -Reverse transcriptase Second strand: -RNAse H -DNA polymerase I -T4 DNA ligase First Strand cDNA Synthesis Primed Synthesis of Second cDNA Strand After second strand synthesis, double stranded, blunt end DNA is produced: Need to provide complementary ends to clone into vectors. 1) Homopolymer tailing: Terminal transferase Terminal transferase is a polymerase that add will ad homopolymer tails to free 3' ends of DNA or RNA 2) addition of adapters (linkers) by ligation **3) Tailing and primers containing restriction sites for asymmetric cloning Synthesis of cDNA: Generation of Asymmetric Ends Major problem with cDNA libraries: Full length cDNAs may not be present This depends on SIZE and SECONDARY STRUCTURE of the mRNA Many solutions including RT PCR RACE. Rapid Amplification of cDNA ENDS (RACE) Problem: cDNAs isolated from libraries are often not full length, often lacking 5' end. 5' AAAAAAA 3' primer 1 TTTTT 5' Solution: 5' RACE 1. Use primer 1 for RT of mRNA 5' AAAAAAA +RT 2. Remove RNA (OH-) and Tail the new cDNA 5' GGGGG + Terminal transferase 3. Use poly C primer (with restriction site at 5' end) as primer 2 to copy the new cDNA to ds DNA 5' GGGGG *CCCC + Taq or Klenow 4. PCR using primer 1 and primer 2. End up with: 5' AAAAAAA 5' GGGGG orginal cDNA 3' + TTTTT Potential Problems with RACE for 5' ends of cDNA: 1) Secondary structure of RNA may make it difficult to obtain 5' cDNA (this was probably the problem in the first place). 2) RNA is very long: may need to do more than 1 round of 5' RACE. Expressed Sequence Tag (EST) Projects: Random sequencing of cDNA libraries Make libraries from various tissues, tumors, cell lines, etc. Randomly sequence library members: usually from the ENDS Typical mRNA Incomplete mRNA Sequence Tag How to link ESTs from the same gene together? RIKEN FANTOM PROJECT: http://genome.gsc.riken.go.jp/home.html 1) Develop technologies to reproducibly produce full-length cDNA libraries from many tissues and cells 2) Sequence from the 3’ end to find unique ESTs ~1 million cDNAs were sequenced; represent ~128K gene clusters 3) Fully sequence the unique clusters (~82K) 4) Fully annotate the cDNAs sequenced Shinagawa et al. Functional annotation of a full-length mouse cDNA collection. Nature. 2001 409(6821):685-90. -First 20,000 sequences annotated. How are libraries screened to clone new g 1) Cloning by Complementation: rescue of mutant phenotype by a member of a librar 2) Differential or "Subtraction" Hybridizati 3) Cloning from the protein: either from pr sequence, or using antibodies, or some biochemical property of the protein (e.g., or DNA binding) 4) By homology (low stringency hybridizat 5) POSITIONAL CLONING Cloning by Complementation: rescuing yeast cell cycle mutants with mammalian cDNAs Cyclin/cdc28 complexes regulate the cell cycle in yeast Cells with targeted mutations of cln1, 2, & 3 arrest at " Hypothesis: mammalian genes ought to recue these m yeast cells. Strategy: 1.Place a cln2 gene under control of a gal inducible promoter into a yeast strain harboring mutations in al three Cln genes: In galactose, cln2 will be made and cells survive In glucose, promoter is shut off and cells do not grow 2. Create a human cDNA library in a yeast expression vector (regulatory sequences that allow for expressio yeast). 3. Select for growth in glucose (i.e., when cln2 is shut 41 clones that were not revertants were selected wh two different libraries were screened: 15 cylin B1. 18 cyclin B2, 4 cyclin A, 2 cyclin C, 1 cyc D, 1 cyclin E. Cyclin A and B rescue: cDNAs are truncated LIMITED REGIONS OF HOMOLOGY between cyclin family members cyclin D and cyclin E regulate "Start" in mammalian cells
