2,5-Dialkylresorcinol biosynthesis in Pseudomonas aurantiaca: Novel head-to-head condensation of two fatty acid-derived precursors
Document Type
Article
Publication Date
2-1-2003
Abstract
2-Hexyl-5-propylresorcinol is the predominant analog of several dialkylresorcinols produced by Pseudomonas aurantiaca (Pseudomonas fluorescens BL915). We isolated and characterized three biosynthetic genes that encode an acyl carrier protein, a β-ketoacyl-acyl carrier protein synthase III, and a protein of unknown function, all of which collectively allow heterologous production of 2-hexyl-5-propylresorcinol in Escherichia coli. Two regulatory genes exhibiting similarity to members of the AraC family of transcriptional regulators are also present in the identified gene cluster. Based on the deduced functions of the proteins encoded by the gene cluster and the observed incorporation of labeled carbons from octanoic acid into 2-hexyl-5-propylresorcinol, we propose that dialkylresorcinols are derived from medium-chain-length fatty acids by an unusual head-to-head condensation of β-ketoacyl thioester intermediates. Genomic evidence suggests that there is a similar pathway for the biosynthesis of the flexirubin-type pigments in certain bacteria belonging to the order Cytophagales.
Publication Title
Journal of Bacteriology
First Page Number
860
Last Page Number
869
DOI
10.1128/JB.185.3.860-869.2003
Recommended Citation
Nowak-Thompson, Brian; Hammer, Philip E.; Hill, D. Steven; Stafford, Jill; Torkewitz, Nancy; Gaffney, Thomas D.; Lam, Stephen T.; Molnár, István; and Ligon, James M., "2,5-Dialkylresorcinol biosynthesis in Pseudomonas aurantiaca: Novel head-to-head condensation of two fatty acid-derived precursors" (2003). Kean Publications. 2696.
https://digitalcommons.kean.edu/keanpublications/2696