(Kcccived October 25, 1991) -EJB 91 1438In addition to the 50-kDa (a) and 40-kDa (0) subunits, a n 11-kDa polypeptide has been discovered in highly purified Desulfovihrio vulguris (Hildenborough) dissimilatory sulfite reductase. This is in contrast with the hitherto generally accepted u2p2 tetrameric subunit composition. Purification, high-ionic-strength gel-filtration, native electrophoresis and isoelectric focussing d o not result in dissociation of the 11-kDa polypeptide from the complex. Densitometric scanning of SDS gels and denaturing gel-filtration indicate a stoichiometric occurrence. A similar 1 I-kDa polypeptide is present in the desulfoviridin of D. vulgaris oxarnicus (Monticello), D . gigas and D. dcsulfuricuns ATCC 27774. We attribute an cc,D,y, subunit structure to desulfoviridin-type sulfite reductases. N-terminal sequences of the a, / 3 and y subunits are reported.A key enzyme in dissimilatory sulfate reduction is sulfite reductase, a complex redox enzyme containing both Fe/S and siroheme prosthetic groups. Sulfite reductases that are supposed to have a dissimilatory function have been observed in, and isolated from, over 20 species of microorganisms [ l -41. Kinetic parameters and subunit structure of dissimilatory sulfite reductases are markedly different from assimilatory sulfite reductases.Dissimilatory enzymes are x 2 P 2 proteins (1 50-230 kDa) that have a millimolar K,,, for sulfite, a slightly acidic pH optimum and reduce their substrate to SJOzSp and S20:-(1, 4-81, The physiological relevance of the in vitro observed product composition is a matter of controversy. A number of explanations has been put forward: loss of interaction with the cytoplasmic membrane [9], in vitro assay conditions [lo], and the possibility that the observed products are in vivo intermediates [I 11. Partial demctallation of the siroheme is observed in desulfoviridins [2,12] and is presumably an intrinsic feature of some dissimilatory enzymes. It probably has no bearing on the formation of S 3 0 i -and SzO:-since desulfoviridin, desulfofuscidin, P582 and desulforubidin-type dissimilatory enzymes have a comparable product composition and specific activity [2-7, 131.Contrarily, assimilatory sulfite reductases cleanly perform the full six-electron reduction to sulfide. They have a slightly basic pH optimum with a submillimolar K,, for sulfite. The subunit composition, however, is non-uniform: ugp4 [14], a4-6 1351, or cc2 [16]. This probably reflects differences in the source of reducing equivalents.A distinct, third, group of sulfitc reductases comprises the so-called low-molecular-mass sulfite reductases. These enzymes arc presumably assimilatory. They differ from the other two groups in two aspects: they are monomeric (20 -30 kDa), We report here that D . vulgaris (Hildenborough) desulfoviridin contains a small, hitherto unnoted, y-subunit in addition to the usual a2P2 motive of dissimilatory enzymes. Nterminal sequences, size and stoichiometry of the subunits have been determined. An immunological comparison of d...
