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RTP and Tus

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Revision as of 01:53, 13 May 2011 by Rada Germanos (Talk | contribs)
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A comparison of the Replication Terminator Protein (from Bacillus subtillis) and Tus (from Escerishia coli) provides an interesting insight into how proteins with vastly different structures and mechanisms of action can produce essentially identical effects in their native systems.

Looking at the structures of these two proteins, it is not immediately obvious that they would perfom the same function, specifically, to arrest the progression of the replication fork along the bacterial chromosome at specific sites (termed Ter sites). Furthermore, this arrest-mechanism functions in a polar manner in both organisms, which is perhaps surprising considering the symmetrical characteristics of both proteins.

PDB ID 1ECR

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Tus-Ter complex
Tus-Ter complex

The structure of Tus is unusual for a DNA-binding protein. It binds Ter DNA as an asymmetrical monomer, which establishes the basis for its polar arrest of the replication fork. Tus has three distinct regions: two α-helical regions and central β-strands which jointly form a large, positively-charged central cleft (Kamada, 1996). The core β-structres embrace 13 base pairs of duplex DNA, and at least 30 other residues make nonspecific contacts with the DNA backbone.

PDB ID 1F4K

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Proteopedia Page Contributors and Editors (what is this?)

Rada Germanos, Alexander Berchansky, Michal Harel

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