An ABC transporter is essential for resistance to the antitumor agent mithramycin in the producerStreptomyces argillaceus

The organization of the phosphate-specific transport (pst) operon inPseudomonas aeruginosa has been determined. The gene order of thepst operon ispstC, pstA, pstB, phoU, and a well-conserved Pho box sequence (16/18 bases identical) exists in the promoter region. The most striking difference from the knownEscherichia coli pst operon is the lack of thepstS gene encoding a periplasmic phosphate (P_i)-binding protein. Even though the threepst genes were absolutely required for P_i-specific transport, expression of thepst operon at high levels did not increase P_i uptake inP. aeruginosa. DNA sequences for thepstB andphoU genes have been determined previously. The newly identifiedpstC andpstA genes encode possible integral membrane proteins of 677 amino acids (M _r 73 844) and 513 amino acids (M _r 56 394), respectively. The amino acid sequences of PstC and PstA predict that these proteins contain a long hydrophilic domain not seen in theirE. coli counterparts. A chromosomal deletion of the entirepst operon renderedP. aeruginosa unable to repress P_i taxis under conditions of P_i excess. ThephoU andpstB genes are essential for repressing P_i taxis. However, mutants lacking either PstC or PstA alone were able to repress P_i taxis under conditions of P_i excess.