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Title : Identification of 6-epi-heliolactone as a biosynthetic precursor of avenaol in Avena strigosa - Moriyama_2022_Biosci.Biotechnol.Biochem_86_998 |
Author(s) : Moriyama D , Wakabayashi T , Shiotani N , Yamamoto S , Furusato Y , Yabe K , Mizutani M , Takikawa H , Sugimoto Y |
Ref : Biosci Biotechnol Biochem , 86 :998 , 2022 |
Abstract : Moriyama_2022_Biosci.Biotechnol.Biochem_86_998 |
ESTHER : Moriyama_2022_Biosci.Biotechnol.Biochem_86_998 |
PubMedSearch : Moriyama_2022_Biosci.Biotechnol.Biochem_86_998 |
PubMedID: 35561745 |
Title : Conversion of methyl carlactonoate to heliolactone in sunflower - Wakabayashi_2022_Nat.Prod.Res_36_2215 |
Author(s) : Wakabayashi T , Shinde H , Shiotani N , Yamamoto S , Mizutani M , Takikawa H , Sugimoto Y |
Ref : Nat Prod Res , 36 :2215 , 2022 |
Abstract : Wakabayashi_2022_Nat.Prod.Res_36_2215 |
ESTHER : Wakabayashi_2022_Nat.Prod.Res_36_2215 |
PubMedSearch : Wakabayashi_2022_Nat.Prod.Res_36_2215 |
PubMedID: 33034235 |
Title : Identification of novel canonical strigolactones produced by tomato - Wakabayashi_2022_Front.Plant.Sci_13_1064378 |
Author(s) : Wakabayashi T , Moriyama D , Miyamoto A , Okamura H , Shiotani N , Shimizu N , Mizutani M , Takikawa H , Sugimoto Y |
Ref : Front Plant Sci , 13 :1064378 , 2022 |
Abstract : Wakabayashi_2022_Front.Plant.Sci_13_1064378 |
ESTHER : Wakabayashi_2022_Front.Plant.Sci_13_1064378 |
PubMedSearch : Wakabayashi_2022_Front.Plant.Sci_13_1064378 |
PubMedID: 36589093 |
Title : Specific methylation of (11R)-carlactonoic acid by an Arabidopsis SABATH methyltransferase - Wakabayashi_2021_Planta_254_88 |
Author(s) : Wakabayashi T , Yasuhara R , Miura K , Takikawa H , Mizutani M , Sugimoto Y |
Ref : Planta , 254 :88 , 2021 |
Abstract : Wakabayashi_2021_Planta_254_88 |
ESTHER : Wakabayashi_2021_Planta_254_88 |
PubMedSearch : Wakabayashi_2021_Planta_254_88 |
PubMedID: 34586497 |
Title : Concise synthesis of heliolactone, a non-canonical strigolactone isolated from sunflower - Yamamoto_2020_Biosci.Biotechnol.Biochem_84_1113 |
Author(s) : Yamamoto S , Atarashi T , Kuse M , Sugimoto Y , Takikawa H |
Ref : Biosci Biotechnol Biochem , 84 :1113 , 2020 |
Abstract : Yamamoto_2020_Biosci.Biotechnol.Biochem_84_1113 |
ESTHER : Yamamoto_2020_Biosci.Biotechnol.Biochem_84_1113 |
PubMedSearch : Yamamoto_2020_Biosci.Biotechnol.Biochem_84_1113 |
PubMedID: 32116121 |
Title : CYP722C from Gossypium arboreum catalyzes the conversion of carlactonoic acid to 5-deoxystrigol - Wakabayashi_2020_Planta_251_97 |
Author(s) : Wakabayashi T , Shida K , Kitano Y , Takikawa H , Mizutani M , Sugimoto Y |
Ref : Planta , 251 :97 , 2020 |
Abstract : Wakabayashi_2020_Planta_251_97 |
ESTHER : Wakabayashi_2020_Planta_251_97 |
PubMedSearch : Wakabayashi_2020_Planta_251_97 |
PubMedID: 32306106 |
Title : Direct conversion of carlactonoic acid to orobanchol by cytochrome P450 CYP722C in strigolactone biosynthesis - Wakabayashi_2019_Sci.Adv_5_eaax9067 |
Author(s) : Wakabayashi T , Hamana M , Mori A , Akiyama R , Ueno K , Osakabe K , Osakabe Y , Suzuki H , Takikawa H , Mizutani M , Sugimoto Y |
Ref : Sci Adv , 5 :eaax9067 , 2019 |
Abstract : Wakabayashi_2019_Sci.Adv_5_eaax9067 |
ESTHER : Wakabayashi_2019_Sci.Adv_5_eaax9067 |
PubMedSearch : Wakabayashi_2019_Sci.Adv_5_eaax9067 |
PubMedID: 32064317 |
Title : Evidence for species-dependent biosynthetic pathways for converting carlactone to strigolactones in plants - Iseki_2018_J.Exp.Bot_69_2305 |
Author(s) : Iseki M , Shida K , Kuwabara K , Wakabayashi T , Mizutani M , Takikawa H , Sugimoto Y |
Ref : J Exp Bot , 69 :2305 , 2018 |
Abstract : Iseki_2018_J.Exp.Bot_69_2305 |
ESTHER : Iseki_2018_J.Exp.Bot_69_2305 |
PubMedSearch : Iseki_2018_J.Exp.Bot_69_2305 |
PubMedID: 29294064 |
Title : Bioconversion of 5-deoxystrigol stereoisomers to monohydroxylated strigolactones by plants - Ueno_2018_J.Pestic.Sci_43_198 |
Author(s) : Ueno K , Nakashima H , Mizutani M , Takikawa H , Sugimoto Y |
Ref : J Pestic Sci , 43 :198 , 2018 |
Abstract : Ueno_2018_J.Pestic.Sci_43_198 |
ESTHER : Ueno_2018_J.Pestic.Sci_43_198 |
PubMedSearch : Ueno_2018_J.Pestic.Sci_43_198 |
PubMedID: 30363087 |
Title : A concise synthesis of optically active solanacol, the germination stimulant for seeds of root parasitic weeds - Kumagai_2015_Biosci.Biotechnol.Biochem_79_1240 |
Author(s) : Kumagai H , Fujiwara M , Kuse M , Takikawa H |
Ref : Biosci Biotechnol Biochem , 79 :1240 , 2015 |
Abstract : Kumagai_2015_Biosci.Biotechnol.Biochem_79_1240 |
ESTHER : Kumagai_2015_Biosci.Biotechnol.Biochem_79_1240 |
PubMedSearch : Kumagai_2015_Biosci.Biotechnol.Biochem_79_1240 |
PubMedID: 25798895 |
Title : Heliolactone, a non-sesquiterpene lactone germination stimulant for root parasitic weeds from sunflower - Ueno_2014_Phytochemistry_108_122 |
Author(s) : Ueno K , Furumoto T , Umeda S , Mizutani M , Takikawa H , Batchvarova R , Sugimoto Y |
Ref : Phytochemistry , 108 :122 , 2014 |
Abstract : Ueno_2014_Phytochemistry_108_122 |
ESTHER : Ueno_2014_Phytochemistry_108_122 |
PubMedSearch : Ueno_2014_Phytochemistry_108_122 |
PubMedID: 25446236 |
Title : Structural requirements of strigolactones for germination induction and inhibition of Striga gesnerioides seeds - Nomura_2013_Plant.Cell.Rep_32_829 |
Author(s) : Nomura S , Nakashima H , Mizutani M , Takikawa H , Sugimoto Y |
Ref : Plant Cell Rep , 32 :829 , 2013 |
Abstract : Nomura_2013_Plant.Cell.Rep_32_829 |
ESTHER : Nomura_2013_Plant.Cell.Rep_32_829 |
PubMedSearch : Nomura_2013_Plant.Cell.Rep_32_829 |
PubMedID: 23563521 |
Title : Ent-2'-epi-Orobanchol and its acetate, as germination stimulants for Striga gesnerioides seeds isolated from cowpea and red clover - Ueno_2011_J.Agric.Food.Chem_59_10485 |
Author(s) : Ueno K , Nomura S , Muranaka S , Mizutani M , Takikawa H , Sugimoto Y |
Ref : Journal of Agricultural and Food Chemistry , 59 :10485 , 2011 |
Abstract : Ueno_2011_J.Agric.Food.Chem_59_10485 |
ESTHER : Ueno_2011_J.Agric.Food.Chem_59_10485 |
PubMedSearch : Ueno_2011_J.Agric.Food.Chem_59_10485 |
PubMedID: 21899364 |