Abstract
F430 is the nickel containing tetrapyrrole cofactor of S-methyl coenzyme M methylreductase, the enzyme that catalyzes the final step of methane production by methanogenic bacteria: the reduction of S-methyl coenzyme M (H3CSCH2CH2SO3-) to methane and coenzyme M (HSCH2CH2SO3-). The protein-free F430 obtained from the cytosol of Methanobacterium thermoautotrophicum, strain delta H, exists predominantly in two isomeric forms that differ in relative stereochemical disposition of acid side chains at the 12 and 13 positions of the macrocycle periphery (Pfaltz, A., Livingston, D. A., Jaun, B., Diekert, G., Thauer, R. K., and Eschenmoser, A. (1985) Helv. Chim. Acta 68, 1338-1358). A simple one-step chromatographic procedure for the large-scale separation of these isomers is described. X-ray absorption spectroscopic studies show that F430 (i.e. the native isomer) is 6-coordinate with long nickel-ligand bonds (approximately 2.1 A), suggesting an approximately planar macrocycle. In contrast, the 12,13-diepimer exhibits a 4-coordinate, square-planar structure with short nickel-nitrogen bonds (approximately 1.9 A), suggesting a ruffled macrocycle. Previous reports, based on other x-ray absorption spectroscopic data, of static disorder in F430 Ni-N distances are shown to be incorrect due to sample heterogeneity. The optical spectrum of F430 (whether purified from the protein-free cytosol or extracted at high ionic strength from the holoenzyme) differs significantly from that of the 12,13-diepimer. The optical spectral differences are correlated with the alterations in coordination number and geometry of the central nickel ion in the two F430 isomers.
Highlights
S-methyl coenzyme M methylreductase, the enzyme CoM
We report that the protein-free pool of F430from the cytosol of Methanobacterium thermoautotrophicum exists as a mixture, principally composed ofF430 and its12,13-diepimer
Data from isolated F430 exhibited splitting in the first coordi- data. This splitting was attributed to either staticunder different elution conditions; see "Experimental Procedisorder in the Ni-ligand bond distances, we conclude that the split Fourier transform peak and short Ni-N bonds) [15,16,17] or to sample heterogeneity observed in the earlier studies was due to sample heteroge
Summary
S-methyl coenzyme M methylreductase, the enzyme CoM. The actual site of reduction of methyl-CoM is thought that catalyzes the final stepof methane production by to be methyl-CoM reductase, but reconstitution in uitro [3]. Examples of both types of edge spectra are shown in Fig. 5. we conclude that the12,13-diepimerofF430 contains nickel in a square-planar geometry, whereas the cofactor in its native conformation contains axially ligated nickel, as indicated by the absence of the pre-edge spectral feature (Fig. 4).
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