2021
DOI: 10.1002/anie.202107182
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Discovery of Novel Bacterial Chalcone Isomerases by a Sequence‐Structure‐Function‐Evolution Strategy for Enzymatic Synthesis of (S)‐Flavanones

Abstract: Chalcone isomerase (CHI) is a key enzyme in the biosynthesis of flavonoids in plants. The first bacterial CHI (CHI era ) was identified from Eubacterium ramulus, but its distribution, evolutionary source, substrate scope, and stereoselectivity are still unclear. Here, we describe the identification of 66 novel bacterial CHIs from Genbank using a novel Sequence-Structure-Function-Evolution (SSFE) strategy. These novel bacterial CHIs show diversity in substrate specificity towards various hydroxylated and methox… Show more

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Cited by 14 publications
(10 citation statements)
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“…Plant CHIs share high sequence identities and 3D structural similarities with each other, and catalyze the irreversible isomerization of chalcone into flavanones using a catalytic H 2 O‐mediated acid‐base mechanism due to the solvent‐exposed substrate‐binding site during the catalytic process (Figure S15a) [16] . Bacterial CHIs also share high sequence identities with each other, and catalyze the reversible reactions from flavanones to chalcones [17] . The physiological role of bacterial CHI is to participate in the degradation of flavanone in gut bacteria (Figure S15b,c) [18, 19] .…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Plant CHIs share high sequence identities and 3D structural similarities with each other, and catalyze the irreversible isomerization of chalcone into flavanones using a catalytic H 2 O‐mediated acid‐base mechanism due to the solvent‐exposed substrate‐binding site during the catalytic process (Figure S15a) [16] . Bacterial CHIs also share high sequence identities with each other, and catalyze the reversible reactions from flavanones to chalcones [17] . The physiological role of bacterial CHI is to participate in the degradation of flavanone in gut bacteria (Figure S15b,c) [18, 19] .…”
Section: Resultsmentioning
confidence: 99%
“…[16] Bacterial CHIs also share high sequence identities with each other, and catalyze the reversible reactions from flavanones to chalcones. [17] The physiological role of bacterial CHI is to participate in the degradation of flavanone in gut bacteria (Figure S15b,c). [18,19] The sequence identities between CfoK and plant CHIs are only 9.8-13.1 %, and those between CfoK and bacterial CHIs are 6.7-10.8 % (Figure S16).…”
Section: Resultsmentioning
confidence: 99%
“…Through the Sequence-Structure-Function-Evolution (SSFE) strategy the research group of Meinert and coworkers discovered 66 novel bacterial chalcone isomerase enzymes (CHIs) using the GenBank database. These enzymes have been investigated because they can be used as a sustainable synthetic route to obtain ( S )-flavones starting from different hydroxylated and methoxylated ( S )-chalcones ( Figure 14C ) ( Meinert et al, 2021 ).…”
Section: Biocatalysismentioning
confidence: 99%
“…Dort arbeitet sie unter anderem an eisenabhängigen Enzymen für die Wirkstoffsynthese. s.schmidt@rug.nl le Anwendungsbeispiele, die sich nicht auf das Einbringen funktioneller Gruppen beziehen, sondern auf primäre Stoffwechselwege 5) oder Enzyme, die ein Naturstoffgrundgerüst herstellen 6) . Besonders die Weiterentwicklung von Webtools zur Erstellung von SSNs, wie das der Enzyme Function Initative (efi.igb.illinois.edu/ efi-est/), erleichtert den Zugang zu dieser Methode und kann dazu beitragen, Enzymkandidaten für (chemo-)enzymatische Anwendungen bioinformatisch zu entdecken.…”
Section: Von Aminosäuresequenzen Zu Neuen Enzymfunktionenunclassified