In:
Journal of Bacteriology, American Society for Microbiology, Vol. 191, No. 15 ( 2009-08), p. 4905-4915
Abstract:
Pseudomonas reinekei MT1 has previously been reported to degrade 4- and 5-chlorosalicylate by a pathway with 4-chlorocatechol, 3-chloromuconate, 4-chloromuconolactone, and maleylacetate as intermediates, and a gene cluster channeling various salicylates into an intradiol cleavage route has been reported. We now report that during growth on 5-chlorosalicylate, besides a novel (chloro)catechol 1,2-dioxygenase, C12O ccaA , a novel (chloro)muconate cycloisomerase, MCI ccaB , which showed features not yet reported, was induced. This cycloisomerase, which was practically inactive with muconate, evolved for the turnover of 3-substituted muconates and transforms 3-chloromuconate into equal amounts of cis -dienelactone and protoanemonin, suggesting that it is a functional intermediate between chloromuconate cycloisomerases and muconate cycloisomerases. The corresponding genes, ccaA (C12O ccaA ) and ccaB (MCI ccaB ), were located in a 5.1-kb genomic region clustered with genes encoding trans -dienelactone hydrolase ( ccaC ) and maleylacetate reductase ( ccaD ) and a putative regulatory gene, ccaR , homologous to regulators of the IclR-type family. Thus, this region includes genes sufficient to enable MT1 to transform 4-chlorocatechol to 3-oxoadipate. Phylogenetic analysis showed that C12O ccaA and MCI ccaB are only distantly related to previously described catechol 1,2-dioxygenases and muconate cycloisomerases. Kinetic analysis indicated that MCI ccaB and the previously identified C12O salD , rather than C12O ccaA , are crucial for 5-chlorosalicylate degradation. Thus, MT1 uses enzymes encoded by a completely novel gene cluster for degradation of chlorosalicylates, which, together with a gene cluster encoding enzymes for channeling salicylates into the ortho -cleavage pathway, form an effective pathway for 4- and 5-chlorosalicylate mineralization.
Type of Medium:
Online Resource
ISSN:
0021-9193
,
1098-5530
Language:
English
Publisher:
American Society for Microbiology
Publication Date:
2009
detail.hit.zdb_id:
1481988-0
SSG:
12
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