Literature DB >> 19710020

A single amino acid substitution converts benzophenone synthase into phenylpyrone synthase.

Tim Klundt1, Marco Bocola, Maren Lütge, Till Beuerle, Benye Liu, Ludger Beerhues.   

Abstract

Benzophenone metabolism provides a number of plant natural products with fascinating chemical structures and intriguing pharmacological activities. Formation of the carbon skeleton of benzophenone derivatives from benzoyl-CoA and three molecules of malonyl-CoA is catalyzed by benzophenone synthase (BPS), a member of the superfamily of type III polyketide synthases. A point mutation in the active site cavity (T135L) transformed BPS into a functional phenylpyrone synthase (PPS). The dramatic change in both substrate and product specificities of BPS was rationalized by homology modeling. The mutation may open a new pocket that accommodates the phenyl moiety of the triketide intermediate but limits polyketide elongation to two reactions, resulting in phenylpyrone formation. 3-Hydroxybenzoyl-CoA is the second best starter molecule for BPS but a poor substrate for PPS. The aryl moiety of the triketide intermediate may be trapped in the new pocket by hydrogen bond formation with the backbone, thereby acting as an inhibitor. PPS is a promising biotechnological tool for manipulating benzoate-primed biosynthetic pathways to produce novel compounds.

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Year:  2009        PMID: 19710020      PMCID: PMC2781496          DOI: 10.1074/jbc.M109.038927

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


  30 in total

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6.  Structural control of polyketide formation in plant-specific polyketide synthases.

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9.  Diverse chalcone synthase superfamily enzymes from the most primitive vascular plant, Psilotum nudum.

Authors:  Y Yamazaki; D Y Suh; W Sitthithaworn; K Ishiguro; Y Kobayashi; M Shibuya; Y Ebizuka; U Sankawa
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Review 3.  How structural subtleties lead to molecular diversity for the type III polyketide synthases.

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Journal:  J Biol Chem       Date:  2019-08-30       Impact factor: 5.157

4.  A unified mechanism for plant polyketide biosynthesis derived from in silico modeling.

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5.  Identification and characterization of a type III polyketide synthase involved in quinolone alkaloid biosynthesis from Aegle marmelos Correa.

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6.  Physiological and Transcriptomic Analysis Provide Insight into Low Temperature Enhancing Hypericin Biosynthesis in Hypericum perforatum.

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7.  Benzophenone Synthase and Chalcone Synthase Accumulate in the Mesophyll of Hypericum perforatum Leaves at Different Developmental Stages.

Authors:  Asma K Belkheir; Mariam Gaid; Benye Liu; Robert Hänsch; Ludger Beerhues
Journal:  Front Plant Sci       Date:  2016-06-29       Impact factor: 5.753

8.  Molecular architectures of benzoic acid-specific type III polyketide synthases.

Authors:  Charles Stewart; Kate Woods; Greg Macias; Andrew C Allan; Roger P Hellens; Joseph P Noel
Journal:  Acta Crystallogr D Struct Biol       Date:  2017-11-30       Impact factor: 7.652
  8 in total

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