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Next Assignment Presentation on genome editing http://www.sciencemag.org/content/339/6121/768.full 1.Crispr- associated nucleases 2.Homing endonucleases 3.Zinc-finger nucleases 4.Transcription activator-like effector nucleases (TALENs) 5.Triple-helix–forming oligonucleotides conjugated to restriction endonucleases 6.CRE/LOX system Cytoplasmic regulation • lifetime • localization • initiation Post-transcriptional regulation Nearly ½ of human genome is transcribed, only 1% is CDS • 98% of RNA made is non-coding • ~1/3 intron • ~2/3 “independently transcribed” • Polymerases II & III (+ IV & V in plants) all help • many are from transposons or gene fragments made by transposons (pack-MULES) • ~ 10-25% is anti-sense: same region is transcribed off both strands Thousands of antisense transcripts in plants 1. Overlapping genes Thousands of antisense transcripts in plants 1. Overlapping genes 2. Non-coding RNAs Thousands of antisense transcripts in plants 1. Overlapping genes 2. Non-coding RNAs 3. cDNA pairs Thousands of antisense transcripts in plants 1. Overlapping genes 2. Non-coding RNAs 3. cDNA pairs 4. MPSS Thousands of antisense transcripts in plants 1. Overlapping genes 2. Non-coding RNAs 3. cDNA pairs 4. MPSS 5. TARs Thousands of antisense transcripts in plants Hypotheses 1. Accident: transcription unveils “cryptic promoters” on opposite strand (Zilberman et al) Hypotheses 1. Accident: transcription unveils “cryptic promoters” on opposite strand (Zilberman et al) 2. Functional a. siRNA b. miRNA c. Silencing Hypotheses 1. Accident: transcription unveils “cryptic promoters” on opposite strand (Zilberman et al) 2. Functional a. siRNA b. miRNA c. Silencing d. Priming: chromatin remodeling requires transcription!
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