Abstract
| - The backbone dynamics of ferricytochrome b562, a four-helix bundle protein from Escherichiacoli, have been studied by NMR spectroscopy. The consequences of the introduction of a c-type thioetherlinkage between the heme and protein and the reduction to the ferrous cytochrome have also been analyzed.15N relaxation rates R1 and R2 and 1H−15N NOEs were measured at proton Larmor frequencies of 500and 600 MHz for the oxidized and reduced protein as well as for the oxidized R98C variant. In the latterprotein, an “artificial” thioether covalent bond has been introduced between the heme group and the proteinframe [Arnesano, F., Banci, L., Bertini, I., Ciofi-Baffoni, S., de Lumley Woodyear, T., Johnson, C. M.,and Barker, P. D. (2000) Biochemistry 39, 1499−1514]. The 15N relaxation data were analyzed with theModelFree protocol, and the mobility parameters on the picosecond to nanosecond time scale werecompared for the three species. The three forms are rather rigid as a whole, with average generalizedorder parameters values of 0.87 ± 0.08 (oxidized cytochrome b562), 0.84 ± 0.07 (reduced cytochromeb562), and 0.85 ± 0.07 (oxidized R98C cytochrome b562), indicating similar mobility for each system.Lower order parameters (S2) are found for residues belonging to loops 1 and 2. Higher mobility, as indicatedby lower order parameters, is found for heme binding helices α1 and α4 in the R98C variant with respectto the wild-type protein. The analysis requires a relatively long rotational correlation time (τm = 9.6 ns)whose value is accounted for on the basis of the anisotropy of the molecular shape and the high phosphateconcentration needed to ensure the occurrence of monomer species. A parallel study of motions in themillisecond to microsecond time scale has also been performed on oxidized wild-type and R98C cytochromeb562. In a CPMG experiment, decay rates were analyzed in the presence of spin-echo pulse trains ofvariable spacing. The dynamic behavior on this time scale is similar to that observed on the sub-nanosecondtime scale, showing an increased mobility in the residues connected to the heme ligands in the R98Cvariant. It appears that the increased protein stability of the variant, established previously, is not correlatedwith an increase in rigidity.
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