Phylogenetic analysis of condensation domains in NRPS sheds light on their functional evolution |
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| Authors: | Christian Rausch Ilka Hoof Tilmann Weber Wolfgang Wohlleben Daniel H Huson |
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| Affiliation: | 1.Center for Bioinformatics Tübingen (ZBIT),Eberhard-Karls-Universit?t Tübingen,Tübingen,Germany;2.Center for Biological Sequence Analysis,BioCentrum, Danmarks Tekniske Universitet,Lyngby,Denmark;3.Department of Microbiology/Biotechnology,Eberhard-Karls-Universit?t Tübingen,Tübingen,Germany |
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| Abstract: | Background Non-ribosomal peptide synthetases (NRPSs) are large multimodular enzymes that synthesize a wide range of biologically active natural peptide compounds, of which many are pharmacologically important. Peptide bond formation is catalyzed by the Condensation (C) domain. Various functional subtypes of the C domain exist: AnLCL domain catalyzes a peptide bond between two L-amino acids, aDCL domain links an L-amino acid to a growing peptide ending with a D-amino acid, a Starter C domain (first denominated and classified as a separate subtype here) acylates the first amino acid with a β -hydroxy-carboxylic acid (typically a β -hydroxyl fatty acid), and Heterocyclization (Cyc) domains catalyze both peptide bond formation and subsequent cyclization of cysteine, serine or threonine residues. The homologous Epimerization (E) domain flips the chirality of the last amino acid in the growing peptide; Dual E/C domains catalyze both epimerization and condensation. |
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