The effect of salt extraction on the structure of transcriptionally active genes; evidence for a DNAseI-sensitive structure which could be dependent on chromatin structure at levels higher than the 30 nm fibre

doi:10.1093/nar/13.10.3561

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Nucleic Acids Research, 1985, Vol. 13, No. 10 3561-3579
© 1985

Articles

The effect of salt extraction on the structure of transcriptionally active genes; evidence for a DNAseI-sensitive structure which could be dependent on chromatin structure at levels higher than the 30 nm fibre

G. H. Goodwin, R. H. Nicolas, P. N. Cockerill, S. Zavou and C. A. Wright

Institute of Cancer Research, Royal Marsden Hospital, Chester Beatty Laboratories Fulham Road, London SW3 6JB, UK

Received November 27, 1984. Revised April 21, 1985. Accepted April 21, 1985.

The procedure developed by Lawson and Cole (Biochemistry, 1979,18 2161–2166) for removing lysine-rich histones from nucleiat low pH also quantitatively extracts proteins HMG14 and 17.The effect of this low pH extraction on the DNAseI-sensitivestructures of active genes in avian red blood cells has beeninvestigated. No major perturbation of a developtnentally regulatedDNAseI hypersensitive site in the ß-globin domainand at the 5' end of the ${alpha}$ ^D gene was seen. The overall DNAseI-sensitiveconformation of the B^A-globin gene (relative to the ovalbumingene) is minimally affected by pH3 salt extraction, but thereis some loss of sensitivity of the ${alpha}$ ^D gene. Removal of HMG proteinsat neutral pH had no effect on the sensitivity of active genesin erythroid or fibroblast nuclei. These results, together withthose carried out on DNAseI sensitivity and HMG binding to monomernucleosomes, indicate that there is a major structural featureof active genes responsible for DNAseI-sensitivity which isindependent of HMG proteins or nucleosome core particle structurebut may be dependent on higher order chromatin structures.

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