The semisynthetic syntheses and some properties of derivatives of Clostridium acidi-urici ferredoxin that contain amino acid deletions or replacements in the peptide chain are described. All 16 stable derivatives prepared, with the exception of [Trp2]ferredoxin, were fully active as electron carriers in the two enzymatic assay systems tested: the phosphoroclastic system and the ferrodoxin-dependent reduction of cytochrome c. E1Trp1]Ferredoxin had 70% of the activity of native ferredoxin in both assay systems. The stability in aerobic solution of [Ala1]ferredoxin, which had had its natural alanyl NH2-terminal residue removed and then replaced chemically, is the same as that of the native ferrodoxin (half-life of approximately 54 days). The relative stabilities of derivatives with a replacement or deletion of the NH2-terminal residue are as follows: [Ala1]- greater than or equal to [Phe1]-, [Lys1]-, [ Pro1]-, [Leu1]- greater than [Met1]- greater than [Gly1]- greater than [Glu1]- greater than des-Ala1-ferrodoxin. The data indicate that a large bulky residue, but not a negatively charged residue, is tolerated in position 1 of the peptide chain and the greatly decreased stability (half-life = 1 day) of des-Ala1-ferredoxin confirms the importance of the NH2-terminal residue for the stability of the protein. The relative stabilities of derivatives containing Ala1, but including a replacement for the normal Tyr2, are as follows: Native greater than [Trp2]- greater than or equal to [Phe2]- greater than [His2]- greater than [Leu2]- greater than [Pro2]ferredoxin. [Gly2]- and des-Ala1-Tyr2-apoferredoxin did not form stable derivatives upon reconstitution with iron and sulfide, nor did [3-NO2-Tyr2, 30]- and [Leu2,3-NO2-Tyr30]apoferredoxins. Other relatively stable and fully active derivatives prepared included: [3-NH2-Tyr30]-, [3-F-Phe2]-, and [2-F-Phe2]ferredoxin. The behavior of these various derivatives demonstrates the importance of the peptide chain for the stability of C. acidi-urici ferredoxin and shows that the activity of ferredoxin can be altered by a single amino acid substitution in the peptide chain.