Anti-C8 alpha-gamma specific antibodies were used to isolate cDNA clones from a human liver expression library. Antibodies affinity-purified on the expressed hybrid protein of one clone bound exclusively to the gamma-chain of reduced C8 alpha-gamma. This clone, as well as a second full length cDNA clone obtained by hybridization screening, were sequenced and the complete primary structure for C8 gamma was established. Cyanogen bromide cleavage of C8 alpha-gamma released a 12 kDa carboxy-terminal C8 gamma fragment under both reducing and nonreducing conditions which was identified by fragment-specific, affinity-purified antibodies. Our data clearly show that C8 gamma has one internal disulfide bridge between cys-76 and cys-168 within the carboxy-terminal 12 kDa fragment, whereas the remaining cysteine residue 40 forms the disulfide bridge with C8 alpha. The overall sequence homology to plasma protein HC (23% amino acid identities) and the conservation of one internal cysteine bond and one free, surface-located cysteine residue suggests a highly conserved three-dimensional structure of C8 gamma and protein HC and also a possible functional relationship between these proteins.