6: [1][2][3][4][5][6][7][8][9][10][11] 1987]). Using antibodies directed against cytochrome P-450su1, its N-terminal amino acid sequence, and amino acid composition, we cloned the suaC gene encoding cytochrome P-450su1. Similar information about the cytochrome P-45OSU2 protein confirmed that a gene cloned by cross-hybridization to the suaC gene was the subC gene encoding cytochrome P-450SU2. The suaC and subC genes were expressed in Escherichia coli, DNA for both genes was sequenced, and the deduced amino acid sequences were compared with that of the well-characterized cytochrome P-45OcA, from Pseudomonas putida. Both cytochromes P-450su1 and P-450SU2 contain several regions of strong similarity with the amino acid sequence of P-45OcAm, primarily in regions of the protein responsible for attachment and coordination of the heme prosthetic group.Streptomyces griseolus ATCC 11796 is capable of metabolizing a number of sulfonylurea herbicides to compounds that often exhibit reduced phytotoxicity (23,24,30). It does so via two sulfonylurea-inducible cytochrome P-450 monooxygenases designated cytochrome P-450su1 and cytochrome P-450SU2 (24). Partial characterization and reconstitution studies (23,24) suggest that the two inducible P-450 monooxygenase systems of S. griseolus resemble the threecomponent cytochrome P-450CAM camphor oxidation system of Pseudomonas putida ATCC 17453 (12). In the P-450CAM system, the genes for the three components, putidaredoxin reductase, putidaredoxin (iron-sulfur protein), and cytochrome P-450c,m, have been designated camA, camB, and camC, respectively (15,28). In line with this genetic nomenclature and anticipating the genetic characterization of all the components of the S. griseolus systems, we propose to name the gene for cytochrome P-450su1 suaC and the gene for cytochrome P-450SU2 subC.We are interested in analyzing the genes for these sulfonylurea-metabolizing systems and how they are regulated to understand how a soil organism responds to and metabolizes chemicals foreign to its environment. Additionally, we would like to introduce these genes into plants to enable them to metabolize sulfonylureas to less phytotoxic compounds. In this study, we used the characteristics of the cytochrome P-450su1 and P-450SU2 apoproteins (amino acid composition, NH2-terminal sequence, and antigenicity) and their relatedness to one another to identify and clone the * Corresponding author. t Du Pont Experimental Station Contribution 5241.
