1 / 41

micro RNA’s

micro RNA’s. Computational biology seminar Ariel Jaimovich November 17 th 2005. Transcription. Translation. Protein. RNA. The central dogma of biology. This is not always the case: First ‘life forms’ viruses. Dioxy ribo @#$%##@?!. Rna performs many functions . Ribosomes tRNA

satin
Download Presentation

micro RNA’s

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. micro RNA’s Computational biology seminar Ariel Jaimovich November 17th 2005

  2. Transcription Translation Protein RNA The central dogma of biology • This is not always the case: • First ‘life forms’ • viruses

  3. Dioxy ribo @#$%##@?!

  4. Rna performs many functions • Ribosomes • tRNA • Nuclear detaining • RNAi

  5. Micro RNA • ~22nt rna • Precursor stem& loop • Post-transcription regulation

  6. miRNA History • Lin-4 inhibits LIN14, but no LIN 4 protein was found (1993)

  7. miRNA appear in many organisms • Highly conserved, many ‘copies’ in each organism 4 paralogs of let7 4 in c elegans 15 in human 1 in drosophila

  8. miRNA Genes • ~1/3 Reside inside introns • ~ 2/3 independent transcription units • Often in clusters. • Many times near the genes they regulate or inside them.

  9. Expression • Stage\tissue specific • Large number of copies (robust transcription \ slow decay)

  10. miRNA – biogenesis Highly conserved in evolution

  11. Plants Vs Animals

  12. miRNA - function

  13. Sequence recognition • Positions 2-8 are most important • How do we know • Why ?

  14. Base pairing  Function How do we know which process is active ?

  15. 3’ utr Protein coding rna Function (cont) • Plants vs animals • Number of target seq. on 3’ utr ? • Some miRNA target the same mRNA in different sites

  16. siRNA vs miRNA • Genomic origin – • miRNA from genes • siRNA from mRNAs, transposons, viruses... • Synthesis • One siRNA duplex  many siRNA • Conservation

  17. miRNA vs siRNA

  18. miRNA in plants • Near-perfect complementarity • mRNA cleavage, usually of TF’s related to developmental processes • Conservation between Arabidopsis and rice • Defend against viruses

  19. miRNA in animals • mRNA cleavage or translational silencing • Conservation is also high (?) • Different numbers of paralogs

  20. Identification of hundreds of conserved and nonconserved human microRNAs Isaac Bentwich, Amir Avniel, Yael Karov, Ranit Aharonov Shlomit Gilad, Omer Barad, Adi Barzilai, Paz Einat, Uri Einav, Eti Meiri, Eilon Sharon, Yael Spector & Zvi Bentwich Nature genetics - June 2005

  21. Goal Find new human micro RNAs

  22. Motivation Current gene search techniques: • Hairpins • Conservation Try to search with a wider scope

  23. Search algorithm

  24. ~ 11 milion hairpins Magic box ~ 430,000 hairpins Prediction (1) Fold the genome

  25. Build a classifier Magic box • Structure features • Hairpin length • Loop length • Stability score • Free energy per nucleotide • Matching pairs • Bulge size • Sequence features • Sequence repetitiveness • Regular internal repeat • Inverted internal repeat

  26. Non- conserved conserved sample 800 clustered 3000 non-clustered 1500 clustered 7500control Prediction (2) ~ 430,000 hairpins sample

  27. Micro array in five tissue cultures 886 confirmed miRNA Sample 69 ‘adjacent’ miRNA 359 miRNA Validate (clone and sequence) Prediction (3) 800 clustered 3000 non-clustered 1500 clustered 7500control

  28. Prediction (3) 69 ‘adjacent’ miRNA 359 miRNA Validate (clone and sequence) 89 (33 ‘adjacent’) cloned and sequenced NEW miRNA • Of these: • 1 from the control list • 36 conserved miRNA’s (32 validated in other experiments) • 43 in two new clusters

  29. New cluster

  30. The cluster conatin a few ‘seeds’

  31. Results summary

  32. Goal Location on chromosome Expression ?

  33. Creating miRNA micro array

  34. Design microRNA chip • Normalization by synthetic samples • Melting temperature

  35. Array Results

  36. 55bp Is Expression correlated with distance between microRNA’s?

  37. Is expression of micro RNA’s correlated with host genes ?

  38. Caveats • Numbers of pairs ? • Quantitative comparison with host genes Conclusions • Some miRNA are arranged in genes • miRNA that are located inside introns are expressed similarly to their hosts

  39. Points for thought • Is miRNA regulated ? On which levels ? • Is there a regulation on the RISC ‘loading’ • Why is so many annotated miRNA related to differentiation ? • mRNA can be passed on during mitosis and need to cleaved • Control leaky transcription ?

More Related