User:Ankit Vahia/sandbox1
From Proteopedia
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-Elongation | -Elongation | ||
-Termination | -Termination | ||
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| + | The initiation phase continues until the enzyme synthesizes ~8 base RNA after which it loses promoter contacts and transitions into the stable elongation phase. The initiation phase in T7 RNA polymerase like all other single and multi subunit RNA polymerases is characterized by inherent instability leading to the release of small RNA (3-8 bases long). In addition to the crystal structure of the enzyme with a 3 base DNA-RNA hybrid (PDB ID:1QLN) this 7 base intermediate structure provides an insight into the structural changes within the enzyme has it synthesizes RNA during initiation and provides an insight into the mechanism that eventual culminates into the release of the promoter contacts and the transition into elongation | ||
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| - | A bacterial chemotaxis receptor is an unusually long alpha-helical structure. The attractant molecule (the ligand) binds near the top of this picture and sends a signal across the membrane into the cell to control proteins that bind near the bottom. This is a model of the structure of the receptor based on experimental structures of pieces of related proteins. | ||
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Revision as of 20:39, 28 April 2010
[Image:intactModelLargeText.jpg|frame|T7 RNA Polymerase in the Late Initiation Phase]
A CBI Molecule being studied in the University of Massachusetts Amherst Chemistry-Biology Interface Program at UMass Amherst and on display at the Molecular Playground.
T7 RNA polymerase is a a single sub-unit DNA dependent RNA polymerase from the T7 RNA bacteriophage. Like most RNA polymerase T7 RNA polymerase transcribes DNA through three phases -Initiation -Elongation -Termination
The initiation phase continues until the enzyme synthesizes ~8 base RNA after which it loses promoter contacts and transitions into the stable elongation phase. The initiation phase in T7 RNA polymerase like all other single and multi subunit RNA polymerases is characterized by inherent instability leading to the release of small RNA (3-8 bases long). In addition to the crystal structure of the enzyme with a 3 base DNA-RNA hybrid (PDB ID:1QLN) this 7 base intermediate structure provides an insight into the structural changes within the enzyme has it synthesizes RNA during initiation and provides an insight into the mechanism that eventual culminates into the release of the promoter contacts and the transition into elongation
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