The helical periodicity of DNA on the nucleosome

doi:10.1093/nar/9.17.4267

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Nucleic Acids Research, 1981, Vol. 9, No. 17 4267-4284
© 1981

MOLECULAR BIOLOGY

The helical periodicity of DNA on the nucleosome

A. Klug and L.C. Lutter^*

MRC Laboratory of Molecular Biology Hills Road, Cambridge CB2 2QH, UK

Received July 9, 1981.

The precise number of base pairs per turn of the DNA doublehelix in the nucleosome core particle has been the subject ofcontroversy. In this paper the positions of nuclease cuttingsites are analysed in three dimensions. Using the midpoint ofthe DNA on the nucleosome dyad as origin, the cutting site locationsmeasured along a strand of DNA are mapped onto models of thenucleosome core containing DNA of different helical periodicities.

It is found that a helical periodicity of 10.5 base pairs perturn leads to cutting site positions which are sterically inaccessible.In contrast, a periodicity of 10.0 base pairs per turn leadsto cutting site positions which are not only sterically sound,but which fall into a pattern such as would be expected whenthe access of the nuclease to the DNA is restricted by the presenceof the histone core on one side and of the adjacent superhelicalturn of DNA on the other. As proposed earlier by us (1), a valuefor the helical periodicity close to 10 base pairs per turnon the nucleosome, taken together with a periodicity close to10.5 for DNA in solution - a value now established - resolvesthe so-called linkage number paradox.

^*Present address:Department of Biochemistry, University of MichiganMedical School, Ann Arbor, MI 43104, USA

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