Literature DB >> 24100027

Structural basis for cyclization specificity of two Azotobacter type III polyketide synthases: a single amino acid substitution reverses their cyclization specificity.

Ryutaro Satou1, Akimasa Miyanaga1, Hiroki Ozawa1, Nobutaka Funa1, Yohei Katsuyama1, Ken-Ichi Miyazono2, Masaru Tanokura2, Yasuo Ohnishi3, Sueharu Horinouchi1.   

Abstract

Type III polyketide synthases (PKSs) show diverse cyclization specificity. We previously characterized two Azotobacter type III PKSs (ArsB and ArsC) with different cyclization specificity. ArsB and ArsC, which share a high sequence identity (71%), produce alkylresorcinols and alkylpyrones through aldol condensation and lactonization of the same polyketomethylene intermediate, respectively. Here we identified a key amino acid residue for the cyclization specificity of each enzyme by site-directed mutagenesis. Trp-281 of ArsB corresponded to Gly-284 of ArsC in the amino acid sequence alignment. The ArsB W281G mutant synthesized alkylpyrone but not alkylresorcinol. In contrast, the ArsC G284W mutant synthesized alkylresorcinol with a small amount of alkylpyrone. These results indicate that this amino acid residue (Trp-281 of ArsB or Gly-284 of ArsC) should occupy a critical position for the cyclization specificity of each enzyme. We then determined crystal structures of the wild-type and G284W ArsC proteins at resolutions of 1.76 and 1.99 Å, respectively. Comparison of these two ArsC structures indicates that the G284W substitution brings a steric wall to the active site cavity, resulting in a significant reduction of the cavity volume. We postulate that the polyketomethylene intermediate can be folded to a suitable form for aldol condensation only in such a relatively narrow cavity of ArsC G284W (and presumably ArsB). This is the first report on the alteration of cyclization specificity from lactonization to aldol condensation for a type III PKS. The ArsC G284W structure is significant as it is the first reported structure of a microbial resorcinol synthase.

Entities:  

Keywords:  Bacterial Metabolism; Crystallography; Kinetics; Polyketides; Site-directed Mutagenesis

Mesh:

Substances:

Year:  2013        PMID: 24100027      PMCID: PMC3837156          DOI: 10.1074/jbc.M113.487272

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  28 in total

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8.  An aldol switch discovered in stilbene synthases mediates cyclization specificity of type III polyketide synthases.

Authors:  Michael B Austin; Marianne E Bowman; Jean-Luc Ferrer; Joachim Schröder; Joseph P Noel
Journal:  Chem Biol       Date:  2004-09

9.  Alteration of reaction and substrate specificity of a bacterial type III polyketide synthase by site-directed mutagenesis.

Authors:  Nobutaka Funa; Yasuo Ohnishi; Yutaka Ebizuka; Sueharu Horinouchi
Journal:  Biochem J       Date:  2002-11-01       Impact factor: 3.857

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Authors:  Michael B Austin; Miho Izumikawa; Marianne E Bowman; Daniel W Udwary; Jean-Luc Ferrer; Bradley S Moore; Joseph P Noel
Journal:  J Biol Chem       Date:  2004-07-20       Impact factor: 5.157
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  8 in total

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3.  New Insights on Cyclization Specificity of Fungal Type III Polyketide Synthase, PKSIIINc in Neurospora crassa.

Authors:  Amreesh Parvez; Samir Giri; Renu Bisht; Priti Saxena
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4.  Characterization of an Orphan Type III Polyketide Synthase Conserved in Uncultivated "Entotheonella" Sponge Symbionts.

Authors:  Silke Reiter; Jackson K B Cahn; Vincent Wiebach; Reiko Ueoka; Jörn Piel
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5.  Genome Mining and Evolutionary Analysis Reveal Diverse Type III Polyketide Synthase Pathways in Cyanobacteria.

Authors:  Joachim Steen Larsen; Leanne Andrea Pearson; Brett Anthony Neilan
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6.  Enzymatic assembly of the salinosporamide γ-lactam-β-lactone anticancer warhead.

Authors:  Katherine D Bauman; Vikram V Shende; Percival Yang-Ting Chen; Daniela B B Trivella; Tobias A M Gulder; Sreekumar Vellalath; Daniel Romo; Bradley S Moore
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7.  Polyketide Quinones Are Alternate Intermediate Electron Carriers during Mycobacterial Respiration in Oxygen-Deficient Niches.

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8.  Novel Type III Polyketide Synthases Biosynthesize Methylated Polyketides in Mycobacterium marinum.

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  8 in total

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