Different gene expression systems were tested with the aim of overproducing the 7Fe ferredoxin (FdII) from Rhodobacter capsulatus in Escherichia coli. Plasmids bearing the P t a c , P a r a B , fdxA gene, encoding FdII, under the control of the P l a c U V 5 , P φ 1 0 promoters, were compared for their effcieney to promote the synthesis of recombinant ferredoxin. Using a P φ 1 0 -based expression system, recombinant ferredoxin was obtained in a soluble apoform and accumulated up to 20% of the total cell protein. The ferredoxin polypeptide purified from such cells exhibited the correct molecular mass and no detectable heterogeneity when analyzed by mass spectrometry. When other expression systems were used, the ferredoxin was synthesized in holoform but in relatively smaller amounts (0.2 mg/liter of culture). Factors such as promoter strength, efficient translation signals, and stability of the recombinant mRNA were shown to have little effect on the amount of 7Fe ferredoxin produced in E. coli. It is inferred that iron-sulfur clusters insertion may be a rate-limiting factor for synthesis of the 7Fe ferredoxin in the enterobacterium.