Two bi‐functional cytochrome P450 CYP72 enzymes from olive (Olea europaea) catalyze the oxidative C‐C bond cleavage in the biosynthesis of secoxy‐iridoids – flavor and quality determinants in olive oil

Summary Olive (Olea europaea) is an important crop in Europe, with high cultural, economic and nutritional significance. Olive oil flavor and quality depend on phenolic secoiridoids, but the biosynthetic pathway of these iridoids remains largely uncharacterized. We discovered two bifunctional cytoch...

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Veröffentlicht in:	The New phytologist 2021-02, Vol.229 (4), p.2288-2301
Hauptverfasser:	Rodríguez‐López, Carlos E., Hong, Benke, Paetz, Christian, Nakamura, Yoko, Koudounas, Konstantinos, Passeri, Valentina, Baldoni, Luciana, Alagna, Fiammetta, Calderini, Ornella, O'Connor, Sarah E.
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Sprache:	eng
Schlagworte:	Biosynthesis Breeding Cleavage Cytochrome Cytochrome P-450 Enzyme System - genetics Cytochrome P-450 Enzyme System - metabolism Cytochrome P450 Cytochromes Cytochromes P450 C‐C oxidative cleavage Domestication Economics Enzymes Europe Flavor Flavors Flavour Genetic markers Homology iridoid biosynthesis Iridoids - analysis Metabolism Mutation Nucleotide sequence Olea - genetics Olea europaea oleoside methyl ester oleuropein olive Olive Oil Olives Oxidative Stress Phenolic compounds phenolic secoiridoids Phenols Plant Breeding Specificity Substrates
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creator	Rodríguez‐López, Carlos E. Hong, Benke Paetz, Christian Nakamura, Yoko Koudounas, Konstantinos Passeri, Valentina Baldoni, Luciana Alagna, Fiammetta Calderini, Ornella O'Connor, Sarah E.
description	Summary Olive (Olea europaea) is an important crop in Europe, with high cultural, economic and nutritional significance. Olive oil flavor and quality depend on phenolic secoiridoids, but the biosynthetic pathway of these iridoids remains largely uncharacterized. We discovered two bifunctional cytochrome P450 enzymes, catalyzing the rare oxidative C‐C bond cleavage of 7‐epi‐loganin to produce oleoside methyl ester (OeOMES) and secoxyloganin (OeSXS), both through a ketologanin intermediary. Although these enzymes are homologous to the previously reported Catharanthus roseus secologanin synthase (CrSLS), the substrate and product profiles differ. Biochemical assays provided mechanistic insights into the two‐step OeOMES and CrSLS reactions. Model‐guided mutations of OeOMES changed the product profile in a predictable manner, revealing insights into the molecular basis for this change in product specificity. Our results suggest that, in contrast to published hypotheses, in planta production of secoxy‐iridoids is secologanin‐independent. Notably, sequence data of cultivated and wild olives point to a relation between domestication and OeOMES expression. Thus, the discovery of this key biosynthetic gene suggests a link between domestication and secondary metabolism, and could potentially be used as a genetic marker to guide next‐generation breeding programs.
doi_str_mv	10.1111/nph.16975
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Olive oil flavor and quality depend on phenolic secoiridoids, but the biosynthetic pathway of these iridoids remains largely uncharacterized. We discovered two bifunctional cytochrome P450 enzymes, catalyzing the rare oxidative C‐C bond cleavage of 7‐epi‐loganin to produce oleoside methyl ester (OeOMES) and secoxyloganin (OeSXS), both through a ketologanin intermediary. Although these enzymes are homologous to the previously reported Catharanthus roseus secologanin synthase (CrSLS), the substrate and product profiles differ. Biochemical assays provided mechanistic insights into the two‐step OeOMES and CrSLS reactions. Model‐guided mutations of OeOMES changed the product profile in a predictable manner, revealing insights into the molecular basis for this change in product specificity. Our results suggest that, in contrast to published hypotheses, in planta production of secoxy‐iridoids is secologanin‐independent. Notably, sequence data of cultivated and wild olives point to a relation between domestication and OeOMES expression. Thus, the discovery of this key biosynthetic gene suggests a link between domestication and secondary metabolism, and could potentially be used as a genetic marker to guide next‐generation breeding programs.</description><identifier>ISSN: 0028-646X</identifier><identifier>EISSN: 1469-8137</identifier><identifier>DOI: 10.1111/nph.16975</identifier><identifier>PMID: 33124697</identifier><language>eng</language><publisher>England: Wiley Subscription Services, Inc</publisher><subject>Biosynthesis ; Breeding ; Cleavage ; Cytochrome ; Cytochrome P-450 Enzyme System - genetics ; Cytochrome P-450 Enzyme System - metabolism ; Cytochrome P450 ; Cytochromes ; Cytochromes P450 ; C‐C oxidative cleavage ; Domestication ; Economics ; Enzymes ; Europe ; Flavor ; Flavors ; Flavour ; Genetic markers ; Homology ; iridoid biosynthesis ; Iridoids - analysis ; Metabolism ; Mutation ; Nucleotide sequence ; Olea - genetics ; Olea europaea ; oleoside methyl ester ; oleuropein ; olive ; Olive Oil ; Olives ; Oxidative Stress ; Phenolic compounds ; phenolic secoiridoids ; Phenols ; Plant Breeding ; Specificity ; Substrates</subject><ispartof>The New phytologist, 2021-02, Vol.229 (4), p.2288-2301</ispartof><rights>2020 The Authors. © 2020 New Phytologist Foundation</rights><rights>2020 The Authors. 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Olive oil flavor and quality depend on phenolic secoiridoids, but the biosynthetic pathway of these iridoids remains largely uncharacterized. We discovered two bifunctional cytochrome P450 enzymes, catalyzing the rare oxidative C‐C bond cleavage of 7‐epi‐loganin to produce oleoside methyl ester (OeOMES) and secoxyloganin (OeSXS), both through a ketologanin intermediary. Although these enzymes are homologous to the previously reported Catharanthus roseus secologanin synthase (CrSLS), the substrate and product profiles differ. Biochemical assays provided mechanistic insights into the two‐step OeOMES and CrSLS reactions. Model‐guided mutations of OeOMES changed the product profile in a predictable manner, revealing insights into the molecular basis for this change in product specificity. Our results suggest that, in contrast to published hypotheses, in planta production of secoxy‐iridoids is secologanin‐independent. 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Olive oil flavor and quality depend on phenolic secoiridoids, but the biosynthetic pathway of these iridoids remains largely uncharacterized. We discovered two bifunctional cytochrome P450 enzymes, catalyzing the rare oxidative C‐C bond cleavage of 7‐epi‐loganin to produce oleoside methyl ester (OeOMES) and secoxyloganin (OeSXS), both through a ketologanin intermediary. Although these enzymes are homologous to the previously reported Catharanthus roseus secologanin synthase (CrSLS), the substrate and product profiles differ. Biochemical assays provided mechanistic insights into the two‐step OeOMES and CrSLS reactions. Model‐guided mutations of OeOMES changed the product profile in a predictable manner, revealing insights into the molecular basis for this change in product specificity. Our results suggest that, in contrast to published hypotheses, in planta production of secoxy‐iridoids is secologanin‐independent. 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subjects	Biosynthesis Breeding Cleavage Cytochrome Cytochrome P-450 Enzyme System - genetics Cytochrome P-450 Enzyme System - metabolism Cytochrome P450 Cytochromes Cytochromes P450 C‐C oxidative cleavage Domestication Economics Enzymes Europe Flavor Flavors Flavour Genetic markers Homology iridoid biosynthesis Iridoids - analysis Metabolism Mutation Nucleotide sequence Olea - genetics Olea europaea oleoside methyl ester oleuropein olive Olive Oil Olives Oxidative Stress Phenolic compounds phenolic secoiridoids Phenols Plant Breeding Specificity Substrates
title	Two bi‐functional cytochrome P450 CYP72 enzymes from olive (Olea europaea) catalyze the oxidative C‐C bond cleavage in the biosynthesis of secoxy‐iridoids – flavor and quality determinants in olive oil
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