Reconstitution of nitrate reductase activity and formation of membrane particles from cytoplasmic extracts of chlorate-resistant mutants of Escherichia coli.

The reconstitution of nitrate reductase activity in mixtures of cytoplasmic fractions from the chlorate-resistant mutants chlA, B, C, and E which are lacking this activity was investigated, and the membrane-like particulate material which formed during this reconstitution was analyzed by polyacrylamide gel electrophoresis. When chlA and chlB extracts are incubated together, the cytoplasmic membrane proteins present in the particles which are formed are contributed by both mutants, and the proteins are essentially the same as the proteins in the cytoplasmic membrane fractions of the two mutants. Identical amounts of protein become particulate when cytoplasmic extracts of any of the mutant strains or wild-type strains are incubated at 32 C either singly or in mixtures, and the formation of particulate material does not appear to be a consequence of nitrate reductase reconstitution. Experiments with wild-type strains indicate that the membrane proteins in the cytoplasmic extract are derived from the cytoplasmic membrane during cell breakage. Reconstitution experiments involving various combinations of preincubated and unincubated extracts of the mutants have allowed a preliminary identification of three types of components which are necessary for the formation of active nitrate reductase: (i) a soluble factor present only in extracts from induced chlB; (ii) a different soluble factor which is missing in chlB but is present in extracts from wild-type, chlA, chlC, and chlE; and (iii) a complex including the nitrate reductase protein which is inactivated by preincubation of the mutant extracts.