Abstract
Strigolactones, phytohormones with diverse signaling activities, have a common structure consisting of two lactones connected by an enol-ether bridge. Strigolactones derive from carotenoids via a pathway involving the carotenoid cleavage dioxygenases 7 and 8 (CCD7 and CCD8) and the iron-binding protein D27. We show that D27 is a β-carotene isomerase that converts all-trans-β-carotene into 9-cis-β-carotene, which is cleaved by CCD7 into a 9-cis-configured aldehyde. CCD8 incorporates three oxygens into 9-cis-β-apo-10'-carotenal and performs molecular rearrangement, linking carotenoids with strigolactones and producing carlactone, a compound with strigolactone-like biological activities. Knowledge of the structure of carlactone will be crucial for understanding the biology of strigolactones and may have applications in combating parasitic weeds.
Publication types
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Research Support, Non-U.S. Gov't
MeSH terms
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Arabidopsis / genetics
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Arabidopsis / metabolism*
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Arabidopsis Proteins / genetics
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Arabidopsis Proteins / metabolism
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Biosynthetic Pathways
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Carotenoids / chemistry
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Carotenoids / metabolism
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Dioxygenases / genetics
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Dioxygenases / metabolism
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Germination
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Isomerases / genetics
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Isomerases / metabolism
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Lactones / chemistry
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Lactones / metabolism*
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Lactones / pharmacology
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Molecular Structure
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Mutation
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Oryza / genetics
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Oryza / metabolism*
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Phenotype
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Pisum sativum / genetics
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Pisum sativum / metabolism*
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Plant Growth Regulators / biosynthesis*
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Plant Growth Regulators / chemistry
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Plant Proteins / genetics
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Plant Proteins / metabolism
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Stereoisomerism
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Striga / growth & development
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beta Carotene / metabolism*
Substances
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Arabidopsis Proteins
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GR24 compound
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Lactones
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Plant Growth Regulators
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Plant Proteins
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beta-apo-10'-carotenal
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carlactone
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beta Carotene
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Carotenoids
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CCD7 protein, Arabidopsis
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CCD8 protein, Arabidopsis
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Dioxygenases
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D27 isomerase, Oryza sativa
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Isomerases