1 / 20

Transcription

Transcription. C483 Spring 2013. 1. RNA Polymerase Polymerizes RNA in a 3’ 5’ direction. Has 3’5’ exonuclease activity Has 5’3’ exonuclease activity Catalyzes a reaction driven by pyrophosphate hydrolysis Which of the following statements is true?

quinn-rosa
Download Presentation

Transcription

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Transcription C483 Spring 2013

  2. 1. RNA Polymerase Polymerizes RNA in a 3’5’ direction. Has 3’5’ exonuclease activity Has 5’3’ exonuclease activity Catalyzes a reaction driven by pyrophosphate hydrolysis Which of the following statements is true? The template strand of DNA is copied by RNA polymerase 3’5’. The “sense” strand is DNA; the “antisense” strand is RNA. The coding strand of DNA is identical to the transcribed RNA. The template strand of DNA is identical to the transcribed RNA. A gene is read in the 3’5’ direction. The rate limiting step in transcription is Promoter binding Initiation Elongation Termination

  3. 4. Weak promoters contain A. no consensus sequences. B. sequences that match consensus sequences poorly. C. no TATA box. D. a TATA box but no -35 region. Which of the following is not a difference between bacterial and eukaryotic transcription? Bacterial transcription has less types of RNA polymerase. Eukaryotic transcription makes use of more general transcription factors. Bacterial mRNA undergo extensive post-translational modifications. Chromatin plays a large role in regulation of transcription in eukaryotic cells.

  4. Transcription • Gene—a DNA sequence that is transcribed • Housekeeping vs. regulated genes • Many types of RNA

  5. Information Flow • Central Dogma: information in protein cannot be incorporated into information in DNA • RNADNA in retroviruses • We will focus on messenger RNA (mRNA)

  6. RNA Synthesis • Definition of transcription: DNA-directed RNA synthesis • RNA Polymerase • Three stages • Initiation • Elongation • Termination

  7. Bacterial RNA Polymerase • Multisubunit • Smaller than replisome • Core enzyme • Plus s-subunit for initiation

  8. Chain Elongation Reaction • Very similar to DNA polymerization • Interacts with the DNA template over a short distance, then DNA double helix reforms • No 3’5’ exonuclease

  9. Genes • 5’ 3’ (downstream and upstream) • Coding strand vs. template strand • Sense strand vs. antisense strand

  10. Initiation • Promoter—region of DNA that serves as site for transcription initiation • Consensus region • TATA box • -35 region • Strong promoter matches consensus region better—efficient transcription of rRNA • Weak promoters—infrequent transcription

  11. Initiation • Promoter binding is relatively fast and selective • role of s subunit • Decreases selectivity for nonspecific sequences • Initiation is slow step • DNA unwinding • Synthesis of primer • Elongation is fast

  12. Nonspecific binding One-dimensional promoter search Holoenzyme and promoter form closed complex Open complex allows initiation Sigma subunit released; promoter is cleared and elongation starts

  13. Termination • Termination sequences • Pause site • Rho dependent

  14. Differences in Eukaryotic Transcription • Multiple RNA polymerases based on compartment and job

  15. Differences in Eukaryotic Transcription • General Transcription Factors—complex promoter binding

  16. Differences in Eukaryotic Transcription • Role of Chromatin • 35% of DNA is transcribed • Most of it is quiescent in any given cell • Buried in chromatin • Nontranscribed genes are relatively inaccessible • “Remodelling” enzymes make genes accessible (for example, HATS)

  17. Differences in Eukaryotic Transcription • mRNA processing • Makes primary transcript into “mature” transcript • PolyA tail makes RNA less susceptible to exonucleases • “Splicing” of exons together, with removal of introns • Mature RNA much shorter than primary transcript

  18. Answers • D • A • B • B • C

More Related