| scholarly article | Q13442814 |
| P356 | DOI | 10.1105/TPC.106.045443 |
| P953 | full work available at URL | https://academic.oup.com/plcell/article-pdf/18/11/3275/36905967/plcell_v18_11_3275.pdf |
| P3181 | OpenCitations bibliographic resource ID | 2642107 |
| P932 | PMC publication ID | 1693957 |
| P698 | PubMed publication ID | 17138693 |
| P5875 | ResearchGate publication ID | 6659632 |
| P7228 | access restriction status | open access | Q232932 |
| P2093 | author name string | Csaba Koncz | |
| Masaharu Mizutani | |||
| Takao Yokota | |||
| Kyomi Shibata | |||
| Kanzo Sakata | |||
| Marcel Lafos | |||
| Miklos Szekeres | |||
| Toshiyuki Ohnishi | |||
| Bunta Watanabe | |||
| Simona Bancos | |||
| Satomi Fujita | |||
| Anna-Maria Szatmari | |||
| P2860 | cites work | Arabidopsis CYP85A2, a cytochrome P450, mediates the Baeyer-Villiger oxidation of castasterone to brassinolide in brassinosteroid biosynthesis | Q46604628 |
| Arabidopsis CYP90B1 catalyses the early C-22 hydroxylation of C27, C28 and C29 sterols | Q46929754 | ||
| Inactivation of brassinosteroid biological activity by a salicylate-inducible steroid sulfotransferase from Brassica napus | Q47946474 | ||
| The tomato Dwarf gene isolated by heterologous transposon tagging encodes the first member of a new cytochrome P450 family. | Q48063804 | ||
| A role for brassinosteroids in light-dependent development of Arabidopsis | Q48064776 | ||
| An Arabidopsis brassinosteroid-dependent mutant is blocked in cell elongation. | Q52188855 | ||
| Two independent and polarized processes of cell elongation regulate leaf blade expansion in Arabidopsis thaliana (L.) Heynh. | Q52201906 | ||
| CYP724B2 and CYP90B3 function in the early C-22 hydroxylation steps of brassinosteroid biosynthetic pathway in tomato. | Q52672166 | ||
| Biosynthesis of brassinosteroids in cultured cells of Catharanthus roseus | Q73564020 | ||
| The Arabidopsis deetiolated2 mutant is blocked early in brassinosteroid biosynthesis | Q73945895 | ||
| Two isoforms of NADPH:cytochrome P450 reductase in Arabidopsis thaliana. Gene structure, heterologous expression in insect cells, and differential regulation | Q74118203 | ||
| The DWF4 gene of Arabidopsis encodes a cytochrome P450 that mediates multiple 22alpha-hydroxylation steps in brassinosteroid biosynthesis | Q74270688 | ||
| Biosynthetic pathways of brassinolide in Arabidopsis | Q74302617 | ||
| Brassinosteroids do not undergo long-distance transport in pea. Implications for the regulation of endogenous brassinosteroid levels | Q80425792 | ||
| Erect leaves caused by brassinosteroid deficiency increase biomass production and grain yield in rice | Q82043720 | ||
| Purification and Identification of New Acyl-conjugated Teasterones in Lily Pollen | Q104389983 | ||
| Brassinosteroid-6-oxidases from Arabidopsis and tomato catalyze multiple C-6 oxidations in brassinosteroid biosynthesis | Q28366681 | ||
| The ROTUNDIFOLIA3 gene of Arabidopsis thaliana encodes a new member of the cytochrome P-450 family that is required for the regulated polar elongation of leaf cells | Q28776389 | ||
| GENEVESTIGATOR. Arabidopsis microarray database and analysis toolbox | Q33981484 | ||
| The UGT73C5 of Arabidopsis thaliana glucosylates brassinosteroids | Q34084978 | ||
| The tomato DWARF enzyme catalyses C-6 oxidation in brassinosteroid biosynthesis. | Q35014597 | ||
| The chemical characteristic and distribution of brassinosteroids in plants | Q35068098 | ||
| Biosynthesis and metabolism of brassinosteroids | Q35540295 | ||
| Metabolic channeling in plants. | Q36051376 | ||
| Metabolon formation and metabolic channeling in the biosynthesis of plant natural products | Q36110243 | ||
| Rapid identification of Arabidopsis insertion mutants by non-radioactive detection of T-DNA tagged genes | Q38361895 | ||
| Brassinosteroids rescue the deficiency of CYP90, a cytochrome P450, controlling cell elongation and de-etiolation in Arabidopsis. | Q42628760 | ||
| Accumulation of 6-deoxocathasterone and 6-deoxocastasterone in Arabidopsis, pea and tomato is suggestive of common rate-limiting steps in brassinosteroid biosynthesis | Q43623685 | ||
| Regulation of transcript levels of the Arabidopsis cytochrome p450 genes involved in brassinosteroid biosynthesis | Q44134008 | ||
| An early C-22 oxidation branch in the brassinosteroid biosynthetic pathway | Q44177276 | ||
| Isolation and characterization of a rice dwarf mutant with a defect in brassinosteroid biosynthesis | Q44213628 | ||
| Microarray analysis of brassinosteroid-regulated genes in Arabidopsis | Q44213656 | ||
| 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 stem. | Q44224786 | ||
| Organ-specific expression of brassinosteroid-biosynthetic genes and distribution of endogenous brassinosteroids in Arabidopsis | Q44279342 | ||
| A Rice Brassinosteroid-Deficient Mutant, ebisu dwarf (d2), Is Caused by a Loss of Function of a New Member of Cytochrome P450 | Q44654412 | ||
| Arabidopsis CYP707As encode (+)-abscisic acid 8'-hydroxylase, a key enzyme in the oxidative catabolism of abscisic acid | Q44830263 | ||
| A putative role for the tomato genes DUMPY and CURL-3 in brassinosteroid biosynthesis and response | Q44872461 | ||
| CYP90C1 and CYP90D1 are involved in different steps in the brassinosteroid biosynthesis pathway in Arabidopsis thaliana. | Q45259128 | ||
| A novel cytochrome P450 is implicated in brassinosteroid biosynthesis via the characterization of a rice dwarf mutant, dwarf11, with reduced seed length | Q45261398 | ||
| The last reaction producing brassinolide is catalyzed by cytochrome P-450s, CYP85A3 in tomato and CYP85A2 in Arabidopsis | Q45264853 | ||
| Patterns of Dwarf expression and brassinosteroid accumulation in tomato reveal the importance of brassinosteroid synthesis during fruit development | Q46419596 | ||
| Unique and overlapping expression patterns of Arabidopsis CYP85 genes involved in brassinosteroid C-6 oxidation | Q46431099 | ||
| Phenotypic and Genetic Analysis of det2, a New Mutant That Affects Light-Regulated Seedling Development in Arabidopsis | Q46441391 | ||
| P433 | issue | 11 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | cell biology | Q7141 |
| Arabidopsis thaliana | Q158695 | ||
| brassinosteroid | Q421976 | ||
| (5S,8R,9S,10S,13S,17R)-17-[(2S,3R,4R,5S)-3,4-dihydroxy-5,6-dimethylheptan-2-yl]-10,13-dimethyl-1,2,4,5,6,7,8,9,11,12,14,15,16,17-tetradecahydrocyclopenta[a]phenanthren-3-one | Q105277891 | ||
| (2S,3R,4R,5S)-2-[(3R,5S,8R,9S,10S,13S,17R)-3-hydroxy-10,13-dimethyl-2,3,4,5,6,7,8,9,11,12,14,15,16,17-tetradecahydro-1H-cyclopenta[a]phenanthren-17-yl]-5,6-dimethylheptane-3,4-diol | Q105309945 | ||
| 17-(3-Hydroxy-5,6-dimethylheptan-2-yl)-10,13-dimethyl-1,2,4,5,6,7,8,9,11,12,14,15,16,17-tetradecahydrocyclopenta[a]phenanthren-3-one | Q105327625 | ||
| 17-(3-hydroxy-5,6-dimethylheptan-2-yl)-10,13-dimethyl-2,3,4,5,6,7,8,9,11,12,14,15,16,17-tetradecahydro-1H-cyclopenta[a]phenanthren-3-ol | Q105376153 | ||
| 2-(3-hydroxy-10,13-dimethyl-2,3,4,7,8,9,11,12,14,15,16,17-dodecahydro-1H-cyclopenta[a]phenanthren-17-yl)-5,6-dimethylheptane-3,4-diol | Q115948295 | ||
| 17-(3,4-Dihydroxy-5,6-dimethylheptan-2-yl)-10,13-dimethyl-1,2,6,7,8,9,11,12,14,15,16,17-dodecahydrocyclopenta[a]phenanthren-3-one | Q115948399 | ||
| 3-dehydro-6-deoxoteasterone | Q27109342 | ||
| 6-deoxotyphasterol | Q27109346 | ||
| 3-epi-6-deoxocathasterone | Q27126687 | ||
| (5alpha,22S,24R)-22-hydroxyergostan-3-one | Q27126688 | ||
| P6954 | online access status | open access | Q232932 |
| P304 | page(s) | 3275-88 | |
| P577 | publication date | 2006-11-01 | |
| P1433 | published in | The Plant Cell | Q3988745 |
| P1476 | title | C-23 hydroxylation by Arabidopsis CYP90C1 and CYP90D1 reveals a novel shortcut in brassinosteroid biosynthesis | |
| P478 | volume | 18 |
| Q57435381 | A History of Brassinosteroid Research from 1970 through 2005: Thirty-Five Years of Phytochemistry, Physiology, Genes, and Mutants |
| Q46439997 | A comprehensive genetic study reveals a crucial role of CYP90D2/D2 in regulating plant architecture in rice (Oryza sativa). |
| Q38342059 | Arabidopsis CYP72C1 is an atypical cytochrome P450 that inactivates brassinosteroids |
| Q46441937 | Arabidopsis CYP85A2 catalyzes lactonization reactions in the biosynthesis of 2-deoxy-7-oxalactone brassinosteroids |
| Q34447492 | Arabidopsis PIZZA has the capacity to acylate brassinosteroids |
| Q33766921 | Arabidopsis brassinosteroid biosynthetic mutant dwarf7-1 exhibits slower rates of cell division and shoot induction |
| Q51564420 | AtIPD: a curated database of Arabidopsis isoprenoid pathway models and genes for isoprenoid network analysis. |
| Q64093553 | Biosynthesis and Signal Transduction of ABA, JA, and BRs in Response to Drought Stress of Kentucky Bluegrass |
| Q35807930 | Biosynthesis of a cholesterol-derived brassinosteroid, 28-norcastasterone, in Arabidopsis thaliana |
| Q37995963 | Boosting crop yields with plant steroids. |
| Q48238154 | Brassinosteroid Biosynthesis Is Modulated via a Transcription Factor Cascade of COG1, PIF4, and PIF5. |
| Q36845345 | Brassinosteroid biosynthesis and signalling in Petunia hybrida. |
| Q33364590 | Brassinosteroid signaling directs formative cell divisions and protophloem differentiation in Arabidopsis root meristems |
| Q26827762 | Brassinosteroid-mediated regulation of agronomic traits in rice |
| Q83389983 | Brassinosteroids |
| Q35069864 | Brassinosteroids regulate plant growth through distinct signaling pathways in Selaginella and Arabidopsis |
| Q39310078 | CYP90A1/CPD, a brassinosteroid biosynthetic cytochrome P450 of Arabidopsis, catalyzes C-3 oxidation |
| Q48081288 | Characterization of two brassinosteroid C-6 oxidase genes in pea. |
| Q98177804 | Comprehensive Overview of the Brassinosteroid Biosynthesis Pathways: Substrates, Products, Inhibitors, and Connections |
| Q33362291 | Comprehensive transcriptome analysis of phytohormone biosynthesis and signaling genes in microspore/pollen and tapetum of rice |
| Q28732352 | Cytochromes p450 |
| Q50061626 | DWF1 functions as a C-24 reductase to convert 24-methylene brassinosteroids to 24-methyl brassinosteroids in Arabidopsis thaliana |
| Q89737813 | Direct conversion of carlactonoic acid to orobanchol by cytochrome P450 CYP722C in strigolactone biosynthesis |
| Q41075539 | Dynamic transcriptomic analysis of the early response of female flowers of Populus alba × P. glandulosa to pollination |
| Q54571379 | Enhancing Arabidopsis leaf growth by engineering the BRASSINOSTEROID INSENSITIVE1 receptor kinase. |
| Q33356623 | Establishing a framework for the Ad/abaxial regulatory network of Arabidopsis: ascertaining targets of class III homeodomain leucine zipper and KANADI regulation. |
| Q36523817 | Ethylene promotes hyponastic growth through interaction with ROTUNDIFOLIA3/CYP90C1 in Arabidopsis. |
| Q48055272 | Evolution of diterpene metabolism: Sitka spruce CYP720B4 catalyzes multiple oxidations in resin acid biosynthesis of conifer defense against insects |
| Q36088444 | Fenarimol, a Pyrimidine-Type Fungicide, Inhibits Brassinosteroid Biosynthesis |
| Q51012845 | Functional analyses of Populus euphratica brassinosteroid biosynthesis enzyme genes DWF4 (PeDWF4) and CPD (PeCPD) in the regulation of growth and development of Arabidopsis thaliana. |
| Q33360173 | Functional analysis of GmCPDs and investigation of their roles in flowering |
| Q92172910 | Functional study of the brassinosteroid biosynthetic genes from Selagnella moellendorfii in Arabidopsis |
| Q37408639 | Genome sequence and analysis of the Japanese morning glory Ipomoea nil. |
| Q36151053 | Genome-Wide Identification of miRNAs and Their Targets Involved in the Developing Internodes under Maize Ears by Responding to Hormone Signaling |
| Q37159722 | In vitro and in vivo evidence for the inhibition of brassinosteroid synthesis by propiconazole through interference with side chain hydroxylation |
| Q91645785 | Inhibitors of Brassinosteroid Biosynthesis and Signal Transduction |
| Q50575344 | Involvement of auxin and brassinosteroid in the regulation of petiole elongation under the shade. |
| Q37777896 | Involvement of brassinosteroid signals in the floral-induction network of Arabidopsis |
| Q63241121 | Isoprenoid-derived plant signaling molecules: biosynthesis and biological importance |
| Q34358247 | Leaf development. |
| Q24653492 | Licorice beta-amyrin 11-oxidase, a cytochrome P450 with a key role in the biosynthesis of the triterpene sweetener glycyrrhizin |
| Q37235229 | Long story short. |
| Q36665506 | Loose Plant Architecture1 (LPA1) determines lamina joint bending by suppressing auxin signalling that interacts with C-22-hydroxylated and 6-deoxo brassinosteroids in rice. |
| Q38461960 | Metabolome-scale de novo pathway reconstruction using regioisomer-sensitive graph alignments |
| Q33358564 | Morphogenesis of simple leaves: regulation of leaf size and shape |
| Q47698834 | No Time to Waste: Transcriptome Study Reveals that Drought Tolerance in Barley May Be Attributed to Stressed-Like Expression Patterns that Exist before the Occurrence of Stress. |
| Q34091237 | Oryza sativa cytochrome P450 family member OsCYP96B4 reduces plant height in a transcript dosage dependent manner |
| Q90114696 | PcDWF1, a pear brassinosteroid biosynthetic gene homologous to AtDWARF1, affected the vegetative and reproductive growth of plants |
| Q37007429 | Putative genes involved in saikosaponin biosynthesis in Bupleurum species |
| Q58565013 | Recent advances in brassinosteroid biosynthetic pathway: insight into novel brassinosteroid shortcut pathway |
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| Q39574045 | Rice CYP734As function as multisubstrate and multifunctional enzymes in brassinosteroid catabolism |
| Q89511625 | Roles of Brassinosteroids in Plant Reproduction |
| Q48081290 | Roles of brassinosteroids and related mRNAs in pea seed growth and germination |
| Q36527114 | Seasonal induction of alternative principal pathway for rose flower scent |
| Q92643297 | Structural insights into a key step of brassinosteroid biosynthesis and its inhibition |
| Q43076996 | TCP1 modulates brassinosteroid biosynthesis by regulating the expression of the key biosynthetic gene DWARF4 in Arabidopsis thaliana. |
| Q22065618 | The Selaginella genome identifies genetic changes associated with the evolution of vascular plants |
| Q97521911 | The Sweetpotato BTB-TAZ Protein Gene, IbBT4, Enhances Drought Tolerance in Transgenic Arabidopsis |
| Q47177671 | The genetic and molecular basis of crop height based on a rice model |
| Q45921307 | The maize d2003, a novel allele of VP8, is required for maize internode elongation. |
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