Daisuke Moriyama scite author profile

Daisuke Moriyama

2Publications

11Citation Statements Received

42Citation Statements Given

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Affiliations

Kyoto University of Advanced Science, Kobe University

Publications

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Identification of novel canonical strigolactones produced by tomato

et al. 2022

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Canonical strigolactones (SLs), such as orobanchol, consist of a tricyclic lactone ring (ABC-ring) connected to a methylbutenolide (D-ring). Tomato plants have been reported to produce not only orobanchol but also various canonical SLs related to the orobanchol structure, including orobanchyl acetate, 7-hydroxyorobanchol isomers, 7-oxoorobanchol, and solanacol. In addition to these, structurally unidentified SL-like compounds known as didehydroorobanchol isomers (DDHs), whose molecular mass is 2 Da smaller than that of orobanchol, have been found. Although the SL biosynthetic pathway in tomato is partially characterized, structural elucidation of DDHs is required for a better understanding of the entire biosynthetic pathway. In this study, three novel canonical SLs with the same molecular mass as DDHs were identified in tomato root exudates. The first was 6,7-didehydroorobanchol, while the other two were not in the DDH category. These two SLs were designated phelipanchol and epiphelipanchol because they induced the germination of Phelipanche ramosa, a noxious root parasitic weed of tomato. We also proposed a putative biosynthetic pathway incorporating these novel SLs from orobanchol to solanacol.

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Identification of 6-epi-heliolactone as a biosynthetic precursor of avenaol in Avena strigosa

Moriyama

Wakabayashi

Shiotani

et al. 2022

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Strigolactones (SLs) known as rhizosphere signaling molecules and plant hormones regulating shoot architecture, are classified into two distinct groups, canonical and non-canonical SLs based on their structures. Avenaol, a non-canonical SL found in the root exudates of black oat (Avena strigosa), has a characteristic bicyclo[4.1.0]heptane skeleton. Elucidating the biosynthetic mechanism of this peculiar structure is a challenge for further understanding the structural diversification of non-canonical SLs. In this study, a novel non-canonical SL, 6-epi-heliolactone in black oat root exudates was identified. Feeding experiments showed that 6-epi-heliolactone was a biosynthetic intermediate between methyl carlactonoate and avenaol. Inhibitor experiments proposed the involvement of 2-oxoglutarate-dependent dioxygenase in converting 6-epi-heliolactone to avenaol. These results provide new insights into the stereochemistry diversity of non-canonical SLs and a basis to explore the biosynthetic pathway causing avenaol.

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