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A Unique Sulfotransferase-Involving Strigolactone Biosynthetic Route in Sorghum

Sheng Wu, Yanran Li

2021Frontiers in Plant Science21 citationsDOIOpen Access PDF

Abstract

resistance in sorghum, but the catalytic function remains unclear. Using the recently developed SL-producing microbial consortia, we examined the activities of sorghum MORE AXILLARY GROWTH1 (MAX1) analogs and LGS1. Surprisingly, SbMAX1a (cytochrome P450 711A enzyme in sorghum) synthesized 18-hydroxy-carlactonoic acid (18-hydroxy-CLA) directly from carlactone (CL) through four-step oxidations. The further oxidated product orobanchol (OB) was also detected in the microbial consortium. Further addition of LGS1 led to the synthesis of both 5-deoxystrigol (5DS) and 4-deoxyorobanchol (4DO). Further biochemical characterization found that LGS1 functions after SbMAX1a by converting 18-hydroxy-CLA to 5DS and 4DO possibly through a sulfonation-mediated pathway. The unique functions of SbMAX1 and LGS1 imply a previously unknown synthetic route toward SLs.

Topics & Concepts

StrigolactoneSorghumBiosynthesisEnzymeChemistryStrigaBiochemistryBotanyBiologyGeneAgronomyMutantArabidopsisPlant Parasitism and ResistancePlant and animal studiesPlant Molecular Biology Research