An early C-22 oxidation branch in the brassinosteroid biosynthetic pathwayFUJIOKA, Shozo; TAKATSUTO, Suguru; YOSHIDA, Shigeo et al.Plant physiology (Bethesda). 2002, Vol 130, Num 2, pp 930-939, issn 0032-0889Article

Biosynthesis of cholestanol in higher plantsNAKAJIMA, Naoko; FUJJOKA, Shozo; TANAKA, Takashi et al.Phytochemistry. 2002, Vol 60, Num 3, pp 275-279, issn 0031-9422Article

28-Norcastasterone is biosynthesized from castasteroneFUJIOKA, Shozo; NOGUCHI, Takahiro; SEKIMOTO, Masayo et al.Phytochemistry. 2000, Vol 55, Num 2, pp 97-101, issn 0031-9422Article

'Rinrei', a brassinosteroid-deficient dwarf mutant of faba bean (Vicia faba)FUKUTA, Naoko; FUJIOKA, Shozo; TAKATSUTO, Suguru et al.Physiologia Plantarum (København. 1948). 2004, Vol 121, Num 3, pp 506-512, issn 0031-9317, 7 p.Article

Accumulation of 6-deoxocathasterone and 6-deoxocastasterone in Arabidopsis, pea and tomato is suggestive of common rate-limiting steps in brassinosteroid biosynthesisNOMURA, Takahito; SATO, Tatsuro; BISHOP, Gerard J et al.Phytochemistry. 2001, Vol 57, Num 2, pp 171-178, issn 0031-9422Article

Brassinosteroid levels increase drastically prior to morphogenesis of tracheary elementsYAMAMOTO, Ryo; FUJIOKA, Shozo; DEMURA, Taku et al.Plant physiology (Bethesda). 2001, Vol 125, Num 2, pp 556-563, issn 0032-0889Article

Roles of brassinosteroids and related mRNAs in pea seed growth and germinationNOMURA, Takahito; UENO, Masaaki; YAMADA, Yumiko et al.Plant physiology (Bethesda). 2007, Vol 143, Num 4, pp 1680-1688, issn 0032-0889, 9 p.Article

Roots and shoots of tomato produce 6-deoxo-28-norcathasterone, 6-deoxo-28-nortyphasterol and 6-deoxo-28-norcastasterone, possible precursors of 28-norcastasteroneYOKOTA, Takao; SATO, Tatsuro; TAKEUCHI, Yasutomo et al.Phytochemistry. 2001, Vol 58, Num 2, pp 233-238, issn 0031-9422Article

Arabidopsis CYP90B1 catalyses the early C-22 hydroxylation of C₂₇, C₂₈ and C₂₉ sterolsFUJITA, Satomi; OHNISHI, Toshiyuki; WATANABE, Bunta et al.Plant journal. 2006, Vol 45, Num 5, pp 765-774, issn 0960-7412, 10 p.Article

Loss-of-function of a rice brassinosteroid biosynthetic enzyme, C-6 oxidase, prevents the organized arrangement and polar elongation of cells in the leaves and stemZHI HONG; UEGUCHI-TANAKA, Miyako; UOZU, Sakurako et al.Plant journal. 2002, Vol 32, Num 4, pp 495-508, issn 0960-7412, 14 p.Article

The rice SPINDLY gene functions as a negative regulator of gibberellin signaling by controlling the suppressive function of the DELLA protein, SLR1, and modulating brassinosteroid synthesisSHIMADA, Asako; UEGUCHI-TANAKA, Miyako; SAKAMOTO, Tomoaki et al.Plant journal. 2006, Vol 48, Num 3, pp 390-402, issn 0960-7412, 13 p.Article

A link between sterol biosynthesis, the cell wall, and cellulose in ArabidopsisSCHRICK, Kathrin; FUJIOKA, Shozo; TAKATSUTO, Suguru et al.Plant journal. 2004, Vol 38, Num 2, pp 227-243, issn 0960-7412, 17 p.Article

A mammalian steroid action inhibitor spironolactone retards plant growth by inhibition of brassinosteroid action and induces light-induced gene expression in the darkASAMI, Tadao; OH, Keimei; JIKUMARU, Yusuke et al.Journal of steroid biochemistry and molecular biology. 2004, Vol 91, Num 1-2, pp 41-47, issn 0960-0760, 7 p.Article

Sterols regulate development and gene expression in arabidopsisHE, Jun-Xian; FUJIOKA, Shozo; LI, Tsai-Chi et al.Plant physiology (Bethesda). 2003, Vol 131, Num 3, pp 1258-1269, issn 0032-0889, 12 p.Article

Biosynthetic pathways of brassinolide in arabidopsisNOGUCHI, Takahiro; FUJIOKA, Shozo; CHOE, Sunghwa et al.Plant physiology (Bethesda). 2000, Vol 124, Num 1, pp 201-209, issn 0032-0889Article

The role of OsBRI1 and its homologous genes, OsBRL1 and OsBRL3, in riceNAKAMURA, Ayako; FUJIOKA, Shozo; HASEGAWA, Yasuko et al.Plant physiology (Bethesda). 2006, Vol 140, Num 2, pp 580-590, issn 0032-0889, 11 p.Article

Rice CYP734As function as multisubstrate and multifunctional enzymes in brassinosteroid catabolismSAKAMOTO, Tomoaki; KAWABE, Ayami; TOKIDA-SEGAWA, Asako et al.Plant journal. 2011, Vol 67, Num 1, pp 1-12, issn 0960-7412, 12 p.Article

BEN1, a gene encoding a dihydroflavonol 4-reductase (DFR)-like protein, regulates the levels of brassinosteroids in Arabidopsis thalianaTONG YUAN; FUJIOKA, Shozo; TAKATSUTO, Suguru et al.Plant journal. 2007, Vol 51, Num 2, pp 220-233, issn 0960-7412, 14 p.Article

CYP90C1 and CYP90D1 are involved in different steps in the brassinosteroid biosynthesis pathway in Arabidopsis thalianaKIM, Gyung-Tae; FUJIOKA, Shozo; KOZUKA, Toshiaki et al.Plant journal. 2005, Vol 41, Num 5, pp 710-721, issn 0960-7412, 12 p.Article

Cytochrome P450-catalyzed brassinosteroid pathway activation through synthesis of castasterone and brassinolide in Phaseolus vulgarisKIM, Tae-Wuk; SOO CHUL CHANG; JUNE SEUNG LEE et al.Phytochemistry. 2004, Vol 65, Num 6, pp 679-689, issn 0031-9422, 11 p.Article

Brassinosteroid functions in a broad range of disease resistance in tobacco and riceNAKASHITA, Hideo; YASUDA, Michiko; NITTA, Takako et al.Plant journal. 2003, Vol 33, Num 5, pp 887-898, issn 0960-7412, 12 p.Article

A dwarf mutant strain of Pharbitis nil, Uzukobito (kobito), has defective brassinosteroid biosynthesisSUZUKI, Yoshihito; SASO, Kazuyuki; FUJIOKA, Shozo et al.Plant journal. 2003, Vol 36, Num 3, pp 401-410, issn 0960-7412, 10 p.Article

Auxin stimulates DWARF4 expression and brassinosteroid biosynthesis in ArabidopsisYUHEE CHUNG; MAHARJAN, Puna M; PARK, Taesung et al.Plant journal. 2011, Vol 66, Num 4, pp 564-578, issn 0960-7412, 15 p.Article

Brz220 Interacts with DWF4, a Cytochrome P450 Monooxygenase in Brassinosteroid Biosynthesis, and Exerts Biological ActivitySEKIMATA, Katsuhiko; OHNISHI, Toshiyuki; SAKATA, Kanzo et al.Bioscience, biotechnology, and biochemistry. 2008, Vol 72, Num 1, pp 7-12, issn 0916-8451, 6 p.Article

Brassinosteroid deficiency due to truncated steroid 5α-reductase causes dwarfism in the lk mutant of pealNOMURA, Takahito; JAGER, Corinne E; SMITH, Jennifer J et al.Plant physiology (Bethesda). 2004, Vol 135, Num 4, pp 2220-2229, issn 0032-0889, 10 p.Article