Authors | Title | Published | Journal | PubMed Link |
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Nomura T et al. | Accumulation of 6-deoxocathasterone and 6-deoxocastasterone in Arabidopsis, pea and tomato is suggestive of common rate-limiting steps in brassinosteroid biosynthesis. | 2001 | Phytochemistry | pmid:11382232 |
BancoÅŸ S et al. | Regulation of transcript levels of the Arabidopsis cytochrome p450 genes involved in brassinosteroid biosynthesis. | 2002 | Plant Physiol. | pmid:12226529 |
Fujioka S et al. | An early C-22 oxidation branch in the brassinosteroid biosynthetic pathway. | 2002 | Plant Physiol. | pmid:12376657 |
Fujioka S and Yokota T | Biosynthesis and metabolism of brassinosteroids. | 2003 | Annu Rev Plant Biol | pmid:14502988 |
Fujita S et al. | Arabidopsis CYP90B1 catalyses the early C-22 hydroxylation of C27, C28 and C29 sterols. | 2006 | Plant J. | pmid:16460510 |
Ohnishi T et al. | C-23 hydroxylation by Arabidopsis CYP90C1 and CYP90D1 reveals a novel shortcut in brassinosteroid biosynthesis. | 2006 | Plant Cell | pmid:17138693 |
Nomura T et al. | Roles of brassinosteroids and related mRNAs in pea seed growth and germination. | 2007 | Plant Physiol. | pmid:17322340 |
Pereira-Netto AB et al. | Shooting control by brassinosteroids: metabolomic analysis and effect of brassinazole on Malus prunifolia, the Marubakaido apple rootstock. | 2009 | Tree Physiol. | pmid:19203977 |
Carland F et al. | The sterol methyltransferases SMT1, SMT2, and SMT3 influence Arabidopsis development through nonbrassinosteroid products. | 2010 | Plant Physiol. | pmid:20421456 |