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Nobel Prize in Chemistry 2006 Roger D Kornberg Molecular basis of eukaryotic transcription. Summary of his contributions. ~75 published articles last 10 years Developed a yeast system for production and purification of RNA polymerase II - PowerPoint PPT Presentation
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Nobel Prize in Chemistry 2006
Roger D Kornberg
Molecular basis of eukaryotic transcription
Summary of his contributions
• ~75 published articles last 10 years
• Developed a yeast system for production and purification of RNA polymerase II
• Discovery of the Mediator complex in eukaryotic transcription
• Structure determination of more than a dozen new crystal structures of RNA polymerases with DNA, RNA inhibitors and protein complexes
Central Dogma
DNARNA Protein
Prokaryotic transcription
RNA polymerase containing 5 subunits
One polymerase for all transcription
-factor recognize promoter region on the DNA
Eukaryotic transcription
RNA polymerases I,II and III
RNA polymerase II, 12 subunits, MW~0.5MDa
5 transcription factors, TFIIB,E,F,H and TBP
Mediator complex
Eukaryotic transkription
Structure of RNA polymerase II
"If any enzyme does the cell's heavy lifting, it's RNA polymerase II. Its job: getting the synthesis of all the proteins in higher cells under way by copying their genes into RNAs, and doing it at just the right time and in just the right amounts. As such, pol II, as the enzyme is called, is the heart of the machinery that controls everything that cells do--from differentiating into all the tissues of a developing embryo to responding to everyday stresses. Now, cell biologists can get their best look yet at just how the pol II enzyme of yeast and, by implication, of other higher organisms performs its critical role." Jean Marx Science (2001), Apr20, 411-414
Xray structure determination
•Protein crystals
•Collecting data
•Determination of the structure
Xray structure determination
•Collecting data
Xray structure determination
ResultElectron density map of the structure
•Determination the structure
Structure determination of RNA polymerase II
Resolution down to 2.8 Å
10 subunits ~3500 amino acid residues
Collected data on synchrotron
Large unit cell (a=122.7 Å,b=223.0 and c=376.1)
The ”core” consist of RpbI (green and RpbII (cyan)
Illustrations from: Aaron Klug, Science 2001, 292, 1844-1846
RNA Polymerase II (yeast)
RNA polymerase II
RNA polymerase II
RNA polymerase II in action
Inhibitor of RNA polymerase II
Binding of -amanitin to the active site of RNA polymerase
II
”Proofreading” of an incoming nucleotide
Close-up view of ”proofreading” (matched
nucleotide, UTP)
Close-up view of ”proofreading” (mismatched
nucleotide, ATP)
Overlay matched/mismatched
nucleotide
Concluding remarks
• Molecular understanding of promoter recognition
• Mechanism for initiation, translocation• Mechanism for selection of an incoming
ribonucleotide complementary to template DNA
• Future: Role of transcriptionfactors and Mediators in regulation
Thanks for listening.....