The gene encoding CYP102A2, a novel P450 monooxygenase from Bacillus subtilis, was cloned and expressed in Escherichia coli. The recombinant enzyme formed was purified by immobilised metal chelate affinity chromatography ( IMAC) and characterised. CYP102A2 is a 119-kDa self-sufficient monooxygenase, consisting of an FMN/FAD-containing reductase domain and a heme domain. The deduced amino acid sequence of CYP102A2 exhibits a high level of identity with the amino acid sequences of CYP102A1 from B. megaterium (59%) and CYP102A3 from B. subtilis (60%). In reduced, CO-bound form, the enzyme shows a typical Soret band at 449 nm. It catalyses the oxidation of even- and odd-chain saturated and unsaturated fatty acids. In all reactions investigated, the products were the respective omega-3, omega-2 and omega-1 hydroxylated fatty acids. Activity was highest towards oleic acid (K-M = 17.36 +/- 1.4muM, k(cat) = 2,244 +/- 72 min(-1)) and linoleic acid (K-M = 12.25 +/- 1.8 muM, k(cat) = 1,950 +/- 84 min(-1)). Comparison of a CYP102A2 homology model with the CYP102A1 crystal structure revealed significant differences in the substrate access channels, which might explain the differences in the catalytic properties of these two enzymes.