Temperature dependence of the spin S=1/2 fluctuation rate and the low-spin versus high-spin transition in native chloroperoxidase
Abstract
We analyzed two preparations of native, low-spin ferric chloroperoxides as a function of temperature with the following results. (i) The spin lattice transition rate W(T) is relative slow, following a power law W=0.035 ( T/K)4.98 (rad/s) for one of the samples. (ii) The quadrupole splitting is strongly temperature dependent, dropping from ¦δ E Q¦ ∼ 2.94 mm/s at 100 K to ∼2 mm/s at 250 K. (iii) Starting at 190 K, the low-spin heme iron in frozen adqueous solution converts reversibly to a high-spin form, reaching ∼40% high-spin at 250 K. The two forms appear to be in thermal equilibrium, (iv) Optical data indicate that in a 70% glycerol glass, the conversion starts at lower temperature and reaches ∼50% highspin at 190 K.
- Publication:
-
Hyperfine Interactions
- Pub Date:
- December 1994
- DOI:
- 10.1007/BF02064620
- Bibcode:
- 1994HyInt..91..865S