Guntaka_2017_ACS.Chem.Biol_12_2598

Reference

Title : Structure and Functional Analysis of ClbQ, an Unusual Intermediate-Releasing Thioesterase from the Colibactin Biosynthetic Pathway - Guntaka_2017_ACS.Chem.Biol_12_2598
Author(s) : Guntaka NS , Healy AR , Crawford JM , Herzon SB , Bruner SD
Ref : ACS Chemical Biology , 12 :2598 , 2017
Abstract :

Colibactin is a genotoxic hybrid nonribosomal peptide/polyketide secondary metabolite produced by various pathogenic and probiotic bacteria residing in the human gut. The presence of colibactin metabolites has been correlated to colorectal cancer formation in several studies. The specific function of many gene products in the colibactin gene cluster can be predicted. However, the role of ClbQ, a type II editing thioesterase, has not been established. The importance of ClbQ has been demonstrated by genetic deletions that abolish colibactin cytotoxic activity, and recent studies suggest an atypical role in releasing pathway intermediates from the assembly line. Here we report the 2.0 A crystal structure and biochemical characterization of ClbQ. Our data reveal that ClbQ exhibits greater catalytic efficiency toward acyl-thioester substrates as compared to precolibactin intermediates and does not discriminate among carrier proteins. Cyclized pyridone-containing colibactins, which are off-pathway derivatives, are not viable substrates for ClbQ, while linear precursors are, supporting a role of ClbQ in facilitating the promiscuous off-loading of premature precolibactin metabolites and novel insights into colibactin biosynthesis.

PubMedSearch : Guntaka_2017_ACS.Chem.Biol_12_2598
PubMedID: 28846367
Gene_locus related to this paper: ecoli-C2451

Related information

Gene_locus ecoli-C2451
Structure 5UGZ

Citations formats

Guntaka NS, Healy AR, Crawford JM, Herzon SB, Bruner SD (2017)
Structure and Functional Analysis of ClbQ, an Unusual Intermediate-Releasing Thioesterase from the Colibactin Biosynthetic Pathway
ACS Chemical Biology 12 :2598

Guntaka NS, Healy AR, Crawford JM, Herzon SB, Bruner SD (2017)
ACS Chemical Biology 12 :2598