Chromatin Structure Remodeling (RSC) Complex

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AFM images showing single RSC complexes bound to dsDNA.  The center and right images show RSC-generated DNA loops.
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AFM images showing single RSC complexes bound to dsDNA. The center and right images show RSC-generated DNA loops.

RSC is a 15-subunit complex with the capacity to remodel the structure of chromatin. It exhibits a DNA-dependent ATPase activity stimulated by both free and nucleosomal DNA and a capacity to perturb nucleosome structures. It is at least 10-fold more abundant than the SWI/SNF complex and is essential for mitotic growth.[1]

[edit] Generation of Loops in dsDNA

A single molecule study using magnetic tweezers has observed that RSC generates DNA loops in vitro while simultaneously generating negative supercoils in the template.[2] The figure shows three AFM images from that study. On the left, a single RSC complex is bound to the end of a dsDNA template. The center image shows a DNA loop generated by RSC. The image on the right shows a loop generated by RSC which contains supercoils. The current model of translocation on dsDNA is shown in the figure below, whereby RSC binds the DNA at two locations. Hydrolysis of ATP allows the complex to translocate the DNA into a loop. RSC can release the loop either by translocating back to the original state at a comparable velocity, or by losing one of its two contacts.

The current model for RSC translocation on dsDNA, proposed by Cairns et al.
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The current model for RSC translocation on dsDNA, proposed by Cairns et al.

[edit] See also

  • SWI/SNF Nucleosome Remodeling Complex

[edit] References

  1. ^ Cairns BR, Lorch Y, Li Y, Zhang M, Lacomis L, Erdjument-Bromage H, Tempst P, Du J, Laurent B, Kornberg RD, "RSC, an Essential, Abundant Chromatin-Remodeling Complex", Cell 1996 Dec 27; 87 (7): 1249-1260.
  2. ^ Lia G, Praly E, Ferreira H, Stockdale C, Tse-Dinh YC, Dunlap D, Croquette V, Bensimon D, Owen-Hughes T, "Direct Observation of DNA Distortion by the RSC Complex", Molecular Cell (2006) Feb 3; 21 (3): 417-425.