The tmoABCDEF genes encode the toluene-4-monooxygenase from Pseudomonas mendocina KR1. Upstream from the tmoA gene an open reading frame, tmoX, encoding a protein 83% identical to TodX (todX being the initial gene in the todXFC1C2BADEGIH operon from Pseudomonas putida DOT-T1E) was found. The tmoX gene is also the initial gene in the tmoXABCDEF gene cluster. The transcription initiation point from the tmoX promoter was mapped, and the sequence upstream revealed striking identity with the promoter of the tod operon of P. putida. The tod operon is regulated by a two-component signal transduction system encoded by the todST genes. Two novel genes from P. mendocina KR1, tmoST, were rescued by complementation of a P. putida DOT-T1E todST knockout mutant, whose gene products shared about 85% identity with TodS-TodT. We show that transcription from P tmoX and P todX can be mediated by TmoS-TmoT or TodS-TodT, in the presence of toluene, revealing cross-regulation between these two catabolic pathways.The first step in the metabolism of toluene in Pseudomonas mendocina KR1 is carried out by toluene-4-monooxygenase (T4MO), encoded by the tmoABCDEF gene cluster (38, 39), which is responsible for the oxidation of toluene to p-cresol (35,36). Two other independently regulated gene clusters are known to be required for the metabolism of toluene in P. mendocina KR1 (37). One encodes p-cresol methylhydroxylase and p-hydroxybenzaldehyde dehydrogenase, which catalyze the successive oxidation of the methyl group of p-cresol to the corresponding acid, p-hydroxybenzoate; the other encodes phydroxybenzoate hydroxylase for forming protocatechuate, which is channeled to the -ketoadipate route through an ortho-cleavage pathway (12). Although T4MO activity is known to be inducible by toluene, chlorinated solvents, and alkanes (6,19), no information regarding the regulators involved in the expression of the tmo genes was available when this work was envisaged. To learn about the transcriptional control of the tmo genes, we first sequenced the region upstream of the tmoABCDEF genes in pMC4 (2) by the dideoxy sequencing method with the ABI Prism dRhodamine terminator kit (Applied Biosystems). A 1,362-nucleotide-long open reading frame 27 bp upstream of tmoA was found, whose deduced amino acid sequence shared significant homology with outer membrane proteins encoded in different toluene degradation operons from a number of gram-negative bacteria that use toluene as the sole C source (i.e., 83% identity with TodX of Pseudomonas putida F1 [34] and and 48% identity with TbuX of Ralstonia pickettii [13]). The initial gene in the tmo cluster was called tmoX. Identification of the transcription initiation point of the tmoX promoter and time course induction in response to different effectors.To analyze the expression of the tmo genes, total RNA was isolated from P. mendocina KR1 grown on citrate in the presence and in the absence of toluene or pcresol, the substrate and the hydroxylated product of the T4MO, respectively. A 23-mer oligonucleotide (...
Escherichia coli K12 strains producing L-phenylalanine were converted to L-tyrosine-producing strains using a novel genetic method for gene replacement. We deleted a region of the E. coli K12 chromosome including the pheA gene encoding chorismate mutase/prephenate dehydratase, its leader peptide (pheL), and its promoter using a new polymerase chain reaction-based method that does not leave a chromosomal scar. For high level expression of tyrA, encoding chorismate mutase/prephenate dehydrogenase, its native promoter was replaced with the strong trc promoter. The linked DeltapheLA and Ptrc-tyrA::Kan(R) genetic modifications were moved into L-phenylalanine producing strains by generalized transduction to convert L-phenylalanine-producing strains to L-tyrosine-producing strains. Moreover, introduction of a plasmid carrying genes responsible for sucrose degradation into these strains enabled L-tyrosine-production from sucrose.
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