TrwC is an essential protein in conjugative DNA transfer of the broad-host-range plasmid R388. TrwC was purified in two chromatographic steps from TrwC-overproducing bacteria. The purification procedure resulted in > 90% pure TrwC protein, which was free of contaminating nuclease activities. TrwC behaved as a dimer in gel-filtration chromatography in the presence of 550 mM NaCl, and had a pI of 10.1. The purified protein showed in-vitro ssDNA-dependent nucleoside-5'-triphosphatase and DNA helicase activities. ATP was the preferred substrate for the NTP hydrolysis reaction, which required Mg2+. The helicase activity was dependent on ATP and Mg2+. The efficiency of the unwinding reaction catalyzed by TrwC ranged from > 90% of fragment displaced for a 93-nucleotide sequence to < 5% for a 365-nucleotide sequence. Unwinding was unidirectional in the 5' to 3' direction. The enzyme turned over very slowly from one DNA substrate molecule to another. TrwC is only the second DNA helicase to be described which is involved in conjugative DNA transfer. The biochemical properties of TrwC described here confirm its functional relatedness to helicase I (TraI) encoded by plasmid F of E. coli.