Both of the independently isolated TOL plasmids pWW53 and pDK1 contain multiple regions homologous to the xylS regulatory gene of the archetypal TOL plasmid pWW0. The three homologues on pWW53 vary in the extent of their homology to xylS(pWW0). xylS1(pWW53) is 99 % identical to xylS(pWW0) and is located relative to the single copy of xylR(pWW53) in exactly the same way as xylS and xylR on pWW0. The DNA sequence of xylS3(pWW53) is 87 % identical to the xylS(pWW0) sequence within the coding region but the non-coding DNA upstream is not homologous. There is a frame-shift change at the end of the coding region which causes the C terminus of XylS3(pWW53) to be extended by an additional 10 amino acids relative to XylS(pWW0). xylS2(pWW53) is anomalous and appears to encode a truncated pseudogene lacking the first 525 bases found in the other xylS genes. Evidence is presented to show that both xy/S1pWW53 and xylS3(pWW53) act as regulators of meta pathway operons. Plasmid pDK1 carries two homologues of xylS. xy/Sl(pDK1) is functional and is a hybrid gene: its 5' end and the upstream sequences are highly homologous to both xylS1(pWW53) and xylS(pWW0), whereas its 3' end is identical to xylS3(pWW53). The sequence of xylS2(pDK1) is identical to that of the anomalous truncated xylS2(pWW53). Comparison of the organization and the restriction maps of the xyl catabolic operons on pDK1 and pWW53, together with the nucleotide sequences presented here, indicates that the catabolic DNA on pDK1 has derived from a replicon on which the xyl genes are organized similarly to pWW53 and that a genetic rearrangement has taken place involving a reciprocal recombination internal to two of its xylS homologues.

• 出版日期1993-3