Bowman A , Ward R , El-Mkami H , Owen-Hughes T , Norman DG .

BBE0222861 Biotechnology and Biological Sciences Research Council , Biotechnology and Biological Sciences Research Council , Wellcome Trust , 064414 Wellcome Trust , BB/E022286/1 Biotechnology and Biological Sciences Research Council , BB_BB/E022286/1 Biotechnology and Biological Sciences Research Council , WT064414 Wellcome Trust

	Figure 1. Known structure and spin labelling positions. (A) Stereo cartoon from the crystal structure (1.9 Å) of the histone octamer (PDB code 1TZY): H2A, H2B represented by transparent/grey colour; H3 by wheat; H4 by pale blue. Spin label positions indicated by blue (H4) or red (H3) spheres. (B) H3 labelling positions (red) on monomer. (C) H4-labelling positions (blue) monomer. (D) Histone fold (colour coded). (E) H3 and H4 amino acid sequences with labelling sites coloured red and blue, respectively. Helices indicated by coloured boxes and β-sheets by red arrowheads.
	Figure 2. PELDOR data from the histone octamer for Group A. Results derived from label positions >4 nm apart based on predicted Cα-Cα distance. For each mutant two graphs of data are shown. Top graphs: Background corrected echo oscillations (black), Tikhonov fit (red). Bottom graphs: Tikhonov regularization-derived distance distributions (black), simulated distributions (red).
	Figure 3. PELDOR data from the histone octamer for Group B. Results derived from label positions <4 nm apart based on predicted Cα-Cα distance. For each mutant two graphs of data are shown. Top graphs: Background corrected echo oscillations (black), Tikhonov fit (red). Bottom graphs: Tikhonov regularization-derived distance distributions (black), simulated distributions (red).
	Figure 4. Comparison of tetramer and octamer PELDOR data in Group C (minor differences between octamer and tetramer measurements). For each mutant two graphs of data are shown. Top graphs: Tikhonov-derived fit to octamer PELDOR data (black), background-corrected echo oscillation from tetramer (black dots) and Tikhonov-derived fit to tetramer (red). Bottom graphs: Tikhonov regularization-derived distance distributions octamer (black), tetramer (red).
	Figure 5. Comparison of tetramer and octamer PELDOR data in Group D (major differences between octamer and tetramer measurements). For each mutant two graphs of data are shown. Top graphs: Tikhonov-derived fit to octamer PELDOR data (black), background-corrected echo oscillation from tetramer (black dots) and Tikhonov-derived fit to tetramer (red). Bottom graphs: Tikhonov regularization-derived distance distributions octamer (black), tetramer (red).
	Figure 6. Cartoon view of H3/H4 histone tetramer coloured as per histone core octamer structure. Very similar regions (blue), very dissimilar or heterogeneous regions (red), region with lack of reporting data (light blue) are depicted. The helices of histone H3 are labelled for clarity. (A) front view showing H3-H3′ interface at centre. (B) side view.

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