Stable isotope fractionation by Clostridium pasteurianum. 4. Sulfur isotope fractionation during enzymatic S3O62−, S2O32−, and SO32− reductions

Abstract

Cell-free extracts from Clostridium pasteurianum grown on SO₃²⁻ utilize H₂ to reduce S₃O₆²⁻, S₂O₃²⁻, and SO₃²⁻ to H₂S at a much faster rate than extracts from SO₄²⁻-grown cells. This further supports the concept of an inducible dissimilatory type SO₃²⁻ reductive pathway in this organism. ³⁵S dilution experiments further support the concept that S₃O₆²⁻ and S₂O₃²⁻ are pathway intermediates. The inducible SO₃²⁻ reductase is ferredoxin linked and the kinetics of the reduction and the sulfur isotope fractionation of the product can be altered by altering the growth conditions. The attending sulfur isotope fractionations are similar to those observed during the chemical decomposition of these compounds. In the case of S₂O₃²⁻, ³⁵S labelling experiments verified the conclusions derived from the stable isotope fractionation data concerning the relative reduction rates of the sulfane and sulfonate sulfurs. The reduction rates were also affected by enzyme concentration. The integrity of the whole cell is a necessary requirement for the large inverse isotope effects previously reported.