Degradation of 2-methylaniline in Rhodococcus rhodochrous: cloning and expression of two clustered catechol 2,3-dioxygenase genes from strain CTM

Abstract

Rhodococcus rhodochrous strain CTM degrades 2-methylaniline mainly via the meta-cleavage pathway. Conversion of the metabolite 3-methylcatechol was catalysed by an Mr 156,000 catechol 2,3-dioxygenase (C23OI) comprising four identical subunits of Mr 39,000. The corresponding gene was detected by using an oligonucleotide as a gene probe. This oligonucleotide was synthesized on the basis of a partial amino acid sequence obtained from the purified enzyme from R. rhodochrous. The structural gene of C23OI was located on a 3.5 kb BglII restriction fragment of plasmid pTC1. On the same restriction fragment the gene for a second catechol 2,3-dioxygenase, designated C23OII, was found. This gene coded for the synthesis of the Mr 40,000 polypeptide of the Mr 158,000 tetrameric C23OII. More precise mapping of the structural genes showed that the C23OI gene was located on a 1.2 kb BglII-SmaI fragment and the C23OII gene on the adjacent 1.15 kb SmaI fragment. Comprehensive substrate range analysis showed that C23OII accepted all the substrates that C23OI did, but additionally cleaved 2,3-dihydroxybiphenyl and catechols derived from phenylcarboxylic acids. C23OI exhibited highest activity towards methylcatechols, whereas C23OII cleaved unsubstituted catechol preferentially.