RESUMO
Coenzyme F430 is a nickel-containing tetrapyrrole, serving as the prosthetic group of methyl-coenzyme M reductase in methanogenic and methanotrophic archaea. During coenzyme F430 biosynthesis, the tetrapyrrole macrocycle is reduced by the nitrogenase-like CfbC/D system consisting of the reductase component CfbC and the catalytic component CfbD. Both components are homodimeric proteins, each carrying a [4Fe-4S] cluster. Here, the ligands of the [4Fe-4S] clusters of CfbC2 and CfbD2 were identified revealing an all cysteine ligation of both clusters. Moreover, the midpoint potentials of the [4Fe-4S] clusters were determined to be -256 mV for CfbC2 and -407 mV for CfbD2. These midpoint potentials indicate that the consecutive thermodynamically unfavorable 6 individual "up-hill" electron transfers to the organic moiety of the Ni2+-sirohydrochlorin a,c-diamide substrate require an intricate interplay of ATP-binding, hydrolysis, protein complex formation and release to drive product formation, which is a common theme in nitrogenase-like systems.
RESUMO
We describe the construction and application of elements for random insertion of promoter containing DNA into the genome of Bacillus subtilis. The outward-facing promoter of these integrative elements termed InsTet(G+) is inducible by tetracycline so that conditional mutants are generated. We constructed three InsTet(G+) variants using different regulatory windows. In the first, the regulator gene tetR is located within the element, allowing one-step mutagenesis. The second contains tetR in the chromosome and yields the best regulation efficiency. The third exploits xylose-dependent tetR expression from a plasmid, enabling induction of TetR synthesis so that distinct expression levels of an affected gene can be adjusted. We have obtained mutant strains with all three variants. For some of them, growth can be modulated by the presence of effectors. Most growth defects occur in the presence of inducers, presumably due to regulated expression of antisense RNA.