Abstract
The two histidines of the insulin monomer play a vital role in the organization of insulin into insulin hexamers. The B10 histidines bind to zinc to form two-zinc insulin hexamer, and both the B5 and B10 histidines are implicated in the formation of four-zinc insulin hexamer. These two histidines are both accessible to solvent in the dimeric form of insulin, the predominant species present at pH 2–3. In the present work we report the first 500-MHz1H NMR studies of insulin. At this frequency all four proton resonances from the two histidines of each equivalent monomer are resolved. The resonances are assigned to the C(2)- and C(4)-imidazole protons of B5 His and B10 His employing Carr-Purcell pulse sequences to detect singlets and to observe approximateT 2 relaxation times. Zinc-free bovine insulin at pH 2.9 was examined at temperatures up to 60°C in acetate buffer and in urea of varying concentrations. The environments of B5 His in molecule I and molecule II of the dimer must be the same, with the same being true for B10 His, since a total of only four sharp resonances are seen. Our assignments for the two C(2) protons are consistent with those determined from recent studies of human (B5 Ala) insulin.
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Cheshovsky, D., Neuringer, L.J. & Williamson, K.L. 500-MHz1H NMR studies of insulin: Complete assignment of histidine resonances. J Protein Chem 2, 335–339 (1983). https://doi.org/10.1007/BF01025598
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DOI: https://doi.org/10.1007/BF01025598