2005

 

Albrecht C, Russinova E, Hecht V, Baaijens E, de Vries S. 2005. The Arabidopsis thaliana SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASES1 and 2 control male sporogenesis. Plant Cell 17: 3337-3349**

Almeida JM, Fidalgo F, Confraria A, Santos A, Pires H, Santos I. 2005. Effect of hydrogen peroxide on catalase gene expression, isoform activities and levels in leaves of potato sprayed with homobrassinolide and ultrastructural changes in mesophyll cells. Functional Plant Biology 32: 707-720

Anonymous. 2005. Brassinosteroid signaling pathway. Science  307: 1531-1531**

Anonymous. 2005. Brassinosteroid-induced femaleness in cucumber and relationship to ethylene production. Hortscience 40: 1057-1057

Anonymous. 2005. Proteomic analysis of cellular response to brassinosteroid in Arabidopsis. Molecular & Cellular Proteomics 4: S473-S473

Antonchick A, Svatos A, Schneider B, Konstantinova OV, Zhabinskii VN, Khripach VA. 2005. 2,3-Epoxybrassinosteroids are intermediates in the biosynthesis of castasterone in seedlings of Secale cereale. Phytochemistry 66: 65-72**

Asami T, Nakano T, Fujioka S. 2005. Plant brassinosteroid hormones. Vitamins and Hormones 72: 479-504

Bajguz A, Asami T. 2005. Suppression of Wolffia arrhiza growth by brassinazole, an inhibitor of brassinosteroid biosynthesis and its restoration by endogenous 24-epibrassinolide. Phytochemistry 66: 1787-1796**

Bernardo Y, Alonso E, Coll F, Coll-Garcia D, Perez C, Agueero G. 2005. Synthesis of (22R,23R)-22,23-epoxy-3b,5a-dihydroxystigmastan-6-one from stigmasterol. Journal of Chemical Research: 475-477

Cao JS, Yu HF, Ye WZ, Yu XL, Liu LC, Wang YQ, Xiang X. 2005. Identification and characterisation of a gibberellin-related dwarf mutant in pumpkin (Cucurbita moschata). Journal of Horticultural Science & Biotechnology 80: 29-31

Cao SQ, Xu QT, Cao YJ, Qian K, An K, Zhu Y, Hu BZ, Zhao HF, Kuai BK. 2005. Loss-of-function mutations in DET2 gene lead to an enhanced resistance to oxidative stress in Arabidopsis. Physiologia Plantarum 123: 57-66**

Cao YY, Xu JB, Zhao H. 2005. Effect of brassinolide on growth and regeneration of Lilium lancifolium Thunb callus. Jilin Nongye Daxue Xuebao 27: 172-174

Carlsbecker A, Helariutta Y. 2005. Phloem and xylem specification: pieces of the puzzle emerge. Current Opinion in Plant Biology 8: 512-517**

Castilla V, Larzabal M, Sgalippa NA, Wachsman MB, Coto CE. 2005. Antiviral mode of action of a synthetic brassinosteroid against Junin virus replication. Antiviral Research 68: 88-95**

Castle J, Szekeres M, Jenkins G, Bishop GJ. 2005. Unique and overlapping expression patterns of Arabidopsis CYP85 genes involved in brassinosteroid C-6 oxidation. Plant Molecular Biology 57: 129-140**

Chen SB, Shi LL, Shan ZJ, Hu QH. 2005. Characteristics of hydrolysis and degradation of brassinolide in soils. Nongcun Shengtai Huanjing 21: 55-57

Choi DW, Jung JD, Ha YI, Park HW, In DS, Chung HJ, Liu JR. 2005. Analysis of transcripts in methyl jasmonate-treated ginseng hairy roots to identify genes involved in the biosynthesis of ginsenosides and other secondary metabolites. Plant Cell Reports 23: 557-566**

Colcombet J, Boisson-Dernier A, Ros-Palau R, Vera C, Schroeder JI. 2005. Arabidopsis SOMATIC EMBRYOGENESIS RECEPTOR KINASES1 and 2 are essential for tapetum development and microspore maturation. Plant Cell 17: 3350 – 3361**

Confraria A, Santos I, Neill S. 2005. Brassinosteroids increase stress tolerance in potato. Comparative Biochemistry and Physiology a - Molecular & Integrative Physiology 141: S289-S290

De Grauwe L, Vandenbussche F, Tietz O, Palme K, Van Der Straeten D. 2005. Auxin, ethylene and brassinosteroids: tripartite control of growth in the Arabidopsis hypocotyl. Plant and Cell Physiology 46: 827-836**

de Kock MJD, Brandwagt BF, Bonnema G, de Wit P, Lindhout P. 2005. The tomato Orion locus comprises a unique class of Hcr9 genes. Molecular Breeding 15: 409-422**

Decombel L, Tirry L, Smagghe G. 2005. Action of 24-epibrassinolide on a cell line of the beet armyworm, Spodoptera exigua. Archives of Insect Biochemistry and Physiology 58: 145-156

Du LQ, Poovaiah BW. 2005. Ca2+/calmodulin is critical for brassinosteroid biosynthesis and plant growth. Nature 437: 741-745**

Duan H, Huang MY, Palacio K, Schuler MA. 2005. Variations in CYP74B2 (hydroperoxide lyase) gene expression differentially affect hexenal signaling in the Columbia and Landsberg erecta ecotypes of Arabidopsis. Plant Physiology 139: 1529-1544**

Duan H, Schuler MA. 2005. Differential expression and evolution of the Arabidopsis CYP86A subfamily. Plant Physiology 137: 1067-1081**

Eckardt NA. 2005. Brassinosteroid perception and signaling: Heterodimerization and phosphorylation of receptor-like kinases BRI1 and BAK1. Plant Cell 17: 1638-1640**

Ehsan H, Ray WK, Phinney B, Wang XF, Huber SC, Clouse SD. 2005. Interaction of Arabidopsis BRASSINOSTEROID-INSENSITIVE 1 receptor kinase with a homolog of mammalian TGF-b receptor interacting protein. Plant Journal 43: 251-261**

Ferguson BJ, Ross JJ, Reid JB. 2005. Nodulation phenotypes of gibberellin and brassinosteroid mutants of pea. Plant Physiology 138: 2396-2405**

Ferrie AMR, Dirpaul J, Krishna P, Krochko J, Keller WA. 2005. Effects of brassinosteroids on microspore embryogenesis in Brassica species. In Vitro Cellular & Developmental Biology-Plant 41: 742-745**

Fukuda Y, Sawada Y, Iwasaki T. 2005. Effect of blue-light on the expression of brassinosteroid-biosynthesis genes in rice. Plant and Cell Physiology 46: S191-S191

Groenewald EG, van der Westhuizen AJ. 2005. The roles of prostaglandins and brassinosteroids as plant growth regulators. South African Journal of Science 101: 67-74

Hazra BG, Kumar TP, Pore VS. 2005. Stereoselective synthesis of (2R,3S,22R,23E)-6,6-ethylenedioxy-22-hydroxy-2,3-isopropylidenedioxy-24-methyl-5a-cholest-23-ene: an intermediate for the synthesis of castasterone, dolichosterone and brassinolide. Indian Journal of Chemistry Section B-Organic Chemistry Including Medicinal Chemistry 44: 611-614

He J. 2005. BZR1 is a trancriptional repressor with dual roles in brassinosteroid homeostasis and growth responses (correction). Science 308: 1743-1743**

He JX, Gendron JM, Sun Y, Gampala SSL, Gendron N, Sun CQ, Wang ZY. 2005. BZR1 is a transcriptional repressor with dual roles in brassinosteroid homeostasis and growth responses. Science 307: 1634-1638**

Hong Z, Ueguchi-Tanaka M, Fujioka S, Takatsuto S, Yoshida S, Hasegawa Y, Ashikari M, Kitano H, Matsuoka M. 2005. The rice brassinosteroid-deficient dwarf2 mutant, defective in the rice homolog of Arabidopsis DIMINUTO/DWARF1, is rescued by the endogenously accumulated alternative bioactive brassinosteroid, dolichosterone. Plant Cell 17: 2243-2254**

Hu H, Xiong L, Yang Y. 2005. Rice SERK1 gene positively regulates somatic embryogenesis of cultured cell and host defense response against fungal infection. Planta 222: 107-117**

Itoh RD, Nakahara N, Asami T, Denda T. 2005. The leaf morphologies of the subtropical rheophyte Solenogyne mikaddi and its temperate relative S. beffloides (Asteraceae) are affected differently by plant hormones and their biosynthesis inhibitors. Journal of Plant Research 118: 181-186**

Jager CE, Symons GM, Ross JJ, Smith JJ, Reid JB. 2005. The brassinosteroid growth response in pea is not mediated by changes in gibberellin content. Planta 221: 141-148**

Janeczko A, Koscielniak J, Pilipowicz M, Szarek-Lukaszewska G, Skoczowski A. 2005. Protection of winter rape photosystem 2 by 24-epibrassinolide under cadmium stress. Photosynthetica 43: 293-298**

Janeczko A. 2005. Brassinosteroids in agriculture, horticulture and in vitro cultures. Kosmos  54: 259-265**

Jenik PD, Barton MK. 2005. Surge and destroy: the role of auxin in plant embryogenesis. Development 132: 3577-3585**

Johnson KL, Ingram GC. 2005. Sending the right signals: regulating receptor kinase activity. Current Opinion in Plant Biology 8: 648-656**

Khan M, Takasaki H, Komatsu S. 2005. Comprehensive phosphoproteome analysis in rice and identification of phosphoproteins responsive to different hormones/stresses. Journal of Proteome Research 4: 1592-1599**

Khan MMK, Yang S, Iwasaki Y, Fujisawa Y, Fukuda H, Komatsu S. 2005. A gibberellin-regulated protein phosphorylated by a putative Ca2+-dependent protein kinase is G-protein mediated in rice root. Plant, Cell and Environment 28: 679-687**

Kim GT, Fujioka S, Kozuka T, Tax FE, Takatsuto S, Yoshida S, Tsukaya H. 2005a. CYP90C1 and CYP90D1 are involved in different steps in the brassinosteroid biosynthesis pathway in Arabidopsis thaliana. Plant Journal 41: 710-721**

Kim HB, Schaller H, Goh CH, Kwon M, Choe S, An CS, Durst F, Feldmann KA, Feyereisen R. 2005b. Arabidopsis cyp51 mutant shows postembryonic seedling lethality associated with lack of membrane integrity. Plant Physiology 138: 2033-2047**

Kim J, Jung JH, Reyes JL, Kim YS, Kim SY, Chung KS, Kim JA, Lee M, Lee Y, Kim VN, Chua NH, Park CM. 2005c. microRNA-directed cleavage of ATHB15 mRNA regulates vascular development in Arabidopsis inflorescence stems. Plant Journal 42: 84-94**

Kim TW, Hwang JY, Joo SH, Cheong H, Pharis RP, Kim SK. 2005da. Endogenous level of 28-norcastasterone is strictly regulated in plant cells. Journal of Plant Biology 48: 483-486**

Kim TW, Hwang JY, Kim YS, Joo SH, Chang SC, Lee JS, Takatsuto S, Kim SK. 2005db. Arabidopsis CYP85A2, a cytochrome P450, mediates the Baeyer-Villiger oxidation of castasterone to brassinolide in brassinosteroid biosynthesis. Plant Cell 17: 2397-2412**

Kim YS, Kim TW, Kim SK. 2005e. Brassinosteroids are inherently biosynthesized in the primary roots of maize, Zea mays L. Phytochemistry 66: 1000-1006**

Kinoshita T, Caño-Delgado A, Seto H, Hiranuma S, Fujioka S, Yoshida S, Chory J. 2005. Direct binding of brassinosteroids to the extracellular domain of leucine-rich repeat receptor kinase BRI1. Plant and Cell Physiology 46: S49-S49

Kinoshita T, Caño-Delgado AC, Seto H, Hiranuma S, Fujioka S, Yoshida S, Chory J. 2005. Binding of brassinosteroids to the extracellular domain of plant receptor kinase BRI1. Nature 433: 167-171**

Kitahata N, Saito S, Miyazawa Y, Umezawa T, Shimada Y, Min YK, Mizutani M, Hirai N, Shinozaki K, Yoshida S, Asami T. 2005. Chemical regulation of abscisic acid catabolism in plants by cytochrome P450 inhibitors. Bioorganic & Medicinal Chemistry 13: 4491-4498**

Komorisono M, Ueguchi-Tanaka M, Aichi I, Hasegawa Y, Ashikari M, Kitano H, Matsuoka M, Sazuka T. 2005. Analysis of the rice mutant dwarf and gladius leaf 1. Aberrant katanin-mediated microtubule organization causes up-regulation of gibberellin biosynthetic genes independently of gibberellin signaling. Plant Physiology 138: 1982-1993**

Kubo M, Udagawa M, Nishikubo N, Horiguchi G, Yamaguchi M, Ito J, Mimura T, Fukuda H, Demura T. 2005. Transcription switches for protoxylem and metaxylem vessel formation. Genes & Development 19: 1855-1860**

Kucera B, Cohn MA, Leubner-Metzger G. 2005. Plant hormone interactions during seed dormancy release and germination. Seed Science Research 15: 281-307**

Kwon M, Choe S. 2005. Brassinosteroid biosynthesis and dwarf mutants. Journal of Plant Biology 48: 1-15**

Kwon M, Fujioka S, Jeon JH, Kim HB, Takatsuto S, Yoshida S, An CS, Choe S. 2005. A double mutant for the CYP85A1 and CYP85A2 genes of Arabidopsis exhibits a brassinosteroid dwarf phenotype. Journal of Plant Biology 48: 237-244**

Lee B, Henderson DA, Zhu JK. 2005. The Arabidopsis cold-responsive transcriptome and its regulation by ICE1. Plant Cell 17: 3155-3175**

Leliebre-Lara V, Coll F, Perez CS, Coll D. 2005. Synthesis and preliminary biological evaluation of two new 5a-hydroxyspirostanones. Journal of Chemical Research-S 824-825

Li BH, Wang GQ, Li XJ. 2005. Integrated control on residual damage of persistent sulfonylureas in soil. Yunnan Nongye Daxue Xuebao 20: 835-839

Li JM. 2005. Brassinosteroid signaling: from receptor kinases to transcription factors. Current Opinion in Plant Biology 8: 526-531**

Li KR, Zhang WB, Li HK. 2005. Effect of natural brassinolide on germination of Ailanthus altissima seeds. Forestry Studies in China 7: 12-14**

Li L, Deng XW. 2005. It runs in the family: regulation of brassinosteroid signaling by the BZR1-BES1 class of transcription factors. Trends in Plant Science 10: 266-268**

Li L, Xu J, Xu ZH, Xue HW. 2005. Brassinosteroids stimulate plant tropisms through modulation of polar auxin transport in Brassica and Arabidopsis. Plant Cell 17: 2738-2753**

Lin WH, Wang Y, Mueller-Roeber B, Brearley CA, Xu ZH, Xue HW. 2005. At5PTase13 modulates cotyledon vein development through regulating auxin homeostasis. Plant Physiology 139: 1677-1691**

Lisso J, Steinhauser D, Altmann T, Kopka J, Mussig C. 2005. Identification of brassinosteroid-related genes by means of transcript co-response analyses. Nucleic Acids Research 33: 2685-2696**

Liu W, Wang JX, Yang GL, Lu M, Sui BF. 2005. Effect of brassinolide on peanut young plant. Xiandai Nongyao 4: 42-43

Ma H, Jiang H, Tao C, Liu L, Wang K. 2005. Toxicity evaluations of twenty-seven pesticides to Bombyx mori. Nongyaoxue Xuebao 7: 156-159

Mallik MAB, Williams RD. 2005. Allelopathic growth stimulation of plants and microorganisms. Allelopathy Journal 16: 175-198

McCourt P, Lumba S, Tsuchiya Y, Gazzarrini S. 2005. Crosstalk and abscisic acid: the roles of terpenoid hormones in coordinating development. Physiologia Plantarum 123: 147-152**

Meaney S. 2005. Is C-26 hydroxylation an evolutionarily conserved steroid inactivation mechanism? FASEB Journal 19: 1220-1224**

Mei TS, Lu L, Liu HW, Peng LZ, Zang T, Li YL. 2005. A concise and stereoselective synthesis of cathasterone's side chain. Chemical Research in Chinese Universities 21: 372-375**

Moise AR, von Lintig J, Palczewski K. 2005. Related enzymes solve evolutionarily recurrent problems in the metabolism of carotenoids. Trends in Plant Science 10: 178-186**

Montoya T, Nomura T, Yokota T, Farrar K, Harrison K, Jones JGD, Kaneta T, Kamiya Y, Szekeres M, Bishop GJ. 2005. Patterns of Dwarf expression and brassinosteroid accumulation in tomato reveal the importance of brassinosteroid synthesis during fruit development (vol 42, pg 262, 2005). Plant Journal 42: 783-783

Montoya T, Nomura T, Yokota T, Farrar K, Harrison K, Jones JGD, Kaneta T, Kamiya Y, Szekeres M, Bishop GJ. 2005. Patterns of Dwarf expression and brassinosteroid accumulation in tomato reveal the importance of brassinosteroid synthesis during fruit development. Plant Journal 42: 262-269**

Müssig C. 2005. Brassinosteroid-promoted growth. Plant Biology 7: 110-117**

Nakamura A, Matsuoka M. 2005. New development of studies on brassinosteroid. Tanpakushitsu Kakusan Koso 50: 121-130

Nakamura M, Satoh T, Tanaka SI, Mochizuki N, Yokota T, Nagatani A. 2005. Activation of the cytochrome P450 gene, CYP72C1, reduces the levels of active brassinosteroids in vivo. Journal of Experimental Botany 56: 833-840**

Nakano T, Yamagami A, Miyaki S, Yin YH, Nakazawa M, Matsui M, Seki M, Kobayashi M, Sakuta M, Fujioka S, Shinozaki K, Yoshida S, Chory J, Asami T. 2005. Screening and characterization of brassinosteroid signaling mutant I bil /I ( I Brz-insensitive-long hypocotyl /I ) as a plant chemical genetics using brassinosteroid biosynthesis inhibitior, Brz. Plant and Cell Physiology 46: S15-S15

Nomura T, Kushiro T, Yokota T, Kamiya Y, Bishop G, Yamaguchi S. 2005a. Identification of a cytochrome P450 monooxygenase that produces brassinolide, the most active brassinosteroid. Plant and Cell Physiology 46: S49-S49

Nomura T, Kushiro T, Yokota T, Kamiya Y, Bishop GJ, Yamaguchi S. 2005b. The last reaction producing brassinolide is catalyzed by cytochrome P-450s, CYP85A3 in tomato and CYP85A2 in Arabidopsis. Journal of Biological Chemistry 280: 17873-17879**

O'Brien M, Chantha SC, Rahier A, Matton DP. 2005. Lipid signaling in plants. Cloning and expression analysis of the obtusifoliol 14a-demethylase from Solanum chacoense Bitt., a pollination- and fertilization-induced gene with both obtusifoliol and lanosterol demethylase activity. Plant Physiology 139: 734-749**

Oda Y, Mimura T, Hasezawa S. 2005. Regulation of secondary cell wall development by cortical microtubules during tracheary element differentiation in Arabidopsis cell suspensions. Plant Physiology 137: 1027-1036**

Ohashi-Ito K, Kubo M, Demura T, Fukuda H. 2005. Class III homeodomain leucine-zipper proteins regulate xylem cell differentiation. Plant and Cell Physiology 46: 1646-1656**

Ohnishi T, Watanabe B, Nakamura M, Nagatani A, Yokota T, Sakata K, Mizutani M. 2005. Analysis of brassinosteroids metabolites catalyzed by Arabidopsis CHIBI2 (CYP72C1). Plant and Cell Physiology 46: S215-S215

Ohnishi T, Watanabe B, Sakata K, Mizutani M. 2005. Functional analysis of tomato novel cytochrome P450 involved in brassinosteroids biosynthesis. Plant and Cell Physiology 46: S216-S216

Osakabe Y, Maruyama K, Seki M, Satou M, Shinozaki K, Yamaguchi-Shinozaki K. 2005. Leucine-rich repeat receptor-like kinase1 is a key membrane-bound regulator of abscisic acid early signaling in Arabidopsis. Plant Cell 17: 1105-1119**

Papadopoulou E, Grumet R. 2005. Brassinosteriod-induced femaleness in cucumber and relationship to ethylene production. Hortscience 40: 1763-1767**

Peres LEP, Carvalho RF, Zsogon A, Bermudez-Zambramo OD, Robles WGR, Tavares S. 2005. Grafting of tomato mutants onto potato rootstocks: an approach to study leaf-derived signaling on tuberization. Plant Science 169: 680-688**

Persson S, Wei H, Milne J, Page GP, Somerville CR. 2005. Identification of genes required for cellulose synthesis by regression analysis of public microarray data sets. Proceedings of the National Academy of Sciences of the United States of America 102: 8633-8638**

Philosoph-Hadas S, Friedman H, Meir S. 2005. Gravitropic bending and plant hormones. Vitamins and Hormones 72: 31-78

Poppenberger B, Fujioka S, Soeno K, George GL, Vaistij FE, Hiranuma S, Seto H, Takatsuto S, Adam G, Yoshida S, Bowles D. 2005. The UGT73C5 of Arabidopsis thaliana glucosylates brassinosteroids. Proceedings of the National Academy of Sciences of the United States of America 102: 15253-15258**

Prusakova LD, Chizhova SI. 2005. Application of brassinosteroids in plants under extreme conditions. Agrokhimiya 87-94

Pullman GS, Johnson S, Van Tassel S, Zhang Y. 2005. Somatic embryogenesis in loblolly pine (Pinus taeda) and Douglas fir (Pseudotsuga menziesii): improving culture initiation and growth with MES pH buffer, biotin, and folic acid. Plant Cell Tissue and Organ Culture 80: 91-103**

Ramirez JA, Brosa C, Galagovsky LR. 2005. Synthesis and bioactivity of C-29 brassinosteroid analogues with different functional groups at C-6. Phytochemistry 66: 581-587**

Rivera DG, Coll F. 2005. Synthesis and preliminary bioactivity evaluation of new pregnane brassinosteroid-like compounds. Canadian Journal of Chemistry - Revue Canadienne De Chimie 83: 1084-1092

Ro DK, Arimura GL, Lau SYW, Piers E, Bohlmann J. 2005. Loblolly pine abietadienol/abietadienal oxidase PtAO (CYP720B1) is a multifunctional, multisubstrate cytochrome P450 monooxygenase. Proceedings of the National Academy of Sciences of the United States of America 102: 8060-8065**

Romo S, Jimenez T, Labrador E, Dopico B. 2005. The gene for a xyloglucan endotransglucosylase/hydrolase from Cicer arietinum is strongly expressed in elongating tissues. Plant physiology and biochemistry 43: 169-176**

Rosati F, Bardazzi I, De Blasi P, Simi L, Scarpi D, Guarna A, Serio M, Racchi ML, Danza G. 2005. 5a-reductase activity in Lycopersicon esculentum: cloning and functional characterization of LeDET2 and evidence of the presence of two isoenzymes. Journal of Steroid Biochemistry and Molecular Biology 96: 287-299**

Ryu CM, Hu CH, Locy RD, Kloepper JW. 2005. Study of mechanisms for plant growth promotion elicited by rhizobacteria in Arabidopsis thaliana. Plant and Soil 268: 285-292**

Sazuka T, Aichi I, Kawai T, Matsuo N, Kitano H, Matsuoka M. 2005. The rice mutant dwarf bamboo shoot 1: a leaky mutant of the NACK-type kinesin-like gene can initiate organ primordia but not organ development. Plant and Cell Physiology 46: 1934-1943**

Seto H, Kinoshita T. 2005. Binding mechanism of brassinosteroid, plant growth hormone, and receptor BRI 1. BRAIN Techno News 109: 17-22

Seto H. 2005. Brassinosteroid-based molecular probes play a crucial role in the receptor-shooting research. Plant and Cell Physiology 46: S14-S14

Shimada Y, Nakamura A, Nakajima N, Goda H, Hayashi K, Nozaki H, Asami T, Fujioka S, Yoshida S. 2005. Arabidopsis Aux/IAA genes are involved in brassinosteroid-mediated growth responses in a manner dependent on organ type. Plant and Cell Physiology 46: S215-S215

Singh I, Shono M. 2005. Physiological and molecular effects of 24-epibrassinolide, a brassinosteroid on thermotolerance of tomato. Plant Growth Regulation 47: 111-119**

Sisa M, Hnilickova J, Swaczynova J, Kohout L. 2005. Syntheses of new androstane brassinosteroids with 17b-ester group - butyrates, heptafluorobutyrates, and laurates. Steroids 70: 755-762**

Song WJ, Zhou WJ, Jin ZL, Cao DD, Joel DM, Takeuchi Y, Yoneyama K. 2005. Germination response of Orobanche seeds subjected to conditioning temperature, water potential and growth regulator treatments. Weed Research 45: 467-476**

Sun Y, Allen RD. 2005. Functional analysis of the BIN2 genes of cotton. Molecular Genetics and Genomics 274: 51-59**

Sun Y, Veerabomma S, Abdel-Mageed HA, Fokar M, Asami T, Yoshida S, Allen RD. 2005. Brassinosteroid regulates fiber development on cultured cotton ovules. Plant and Cell Physiology 46: 1384-1391**

Szekeres M, Bishop GJ, Nagy F, Yokota T, Szatmari AM, Szatma M. 2005. How brassinosteroid-biosynthetic enzymes control plant morphogenesis? FEBS Journal 272: 281-281** (Issue Supplement s1)

Takahashi N, Nakazawa M, Shibata K, Yokota T, Ishikawa A, Suzuki K, Kawashima M, Ichikawa T, Shimada H, Matsui M. 2005. shk1-D, a dwarf Arabidopsis mutant caused by activation of the CYP72C1 gene, has altered brassinosteroid levels. Plant Journal 42: 13-22**

Tanabe S, Ashikari M, Fujioka S, Takatsuto S, Yoshida S, Yano M, Yoshimura A, Kitano H, Matsuoka M, Fujisawa Y, Kato H, Iwasaki Y. 2005. A novel cytochrome P450 is implicated in brassinosteroid biosynthesis via the characterization of a rice dwarf mutant, dwarf11, with reduced seed length. Plant Cell 17: 776-790**

Tanaka K, Asami T, Yoshida S, Nakamura Y, Matsuo T, Okamoto S. 2005. Brassinosteroid homeostasis is ensured by signal-dependent feedback expressions of its metabolic genes in Arabidopsis. Plant and Cell Physiology 46: S216-S216

Tanaka K, Asami T, Yoshida S, Nakamura Y, Matsuo T, Okamoto S. 2005. Brassinosteroid homeostasis in Arabidopsis is ensured by feedback expressions of multiple genes involved in its metabolism. Plant Physiology 138: 1117-1125**

Tanaka M, Arai T, Nara Y, Inoue Y. 2005. Roles of brassinosteroid, ethylene and auxin on root hair formation of Arabidopsis thaliana. Plant and Cell Physiology 46: S216-S216

Tao LZ, Cheung AY, Nibau C, Wu HM. 2005. RAC GTPases in tobacco and Arabidopsis mediate auxin-induced formation of proteolytically active nuclear protein bodies that contain AUX/IAA proteins. Plant Cell 17: 2369-2383**

Terakado J, Fujihara S, Goto S, Kuratani R, Suzuki Y, Yoshida S, Yoneyama T. 2005. Systemic effect of a brassinosteroid on root nodule formation in soybean as revealed by the application of brassinolide and brassinazole. Soil Science and Plant Nutrition 51: 389-395**

Terakado J, Yoneyama T, Fujihara S. 2005. Involvement of polyamine in brassinolide-directed nodule regulation in soybean plant. In Biological Nitrogen Fixation, Sustainable Agriculture and the Environment, pp. 231-231

Tsubuki M, Ohinata A, Tanaka T, Takahashi K, Honda T. 2005. Studies on Wittig rearrangement of furfuryl ethers in steroidal side chain synthesis. Tetrahedron 61: 1095-1100**

Turk EM, Fujioka S, Seto H, Shimada Y, Takatsuto S, Yoshida S, Wang HC, Torres QI, Ward JM, Murthy G, Zhang JY, Walker JC, Neff MM. 2005. BAS1 and SOB7 act redundantly to modulate Arabidopsis photomorphogenesis via unique brassinosteroid inactivation mechanisms. Plant Journal 42: 23-34**

Valera-Montero LL, Phillips GC. 2005. Long-lasting Capsicum baccatum 'organogenic callus' formation. In Vitro Cellular and Developmental Biology - Plant 41: 470-476**

Vardhini BV, Rao SSR. 2005. Influence of brassinosteroids on germination and seedling growth of Sorghum under water stress. Indian Journal of Plant Physiology 10: 381-384

Vert G, Nemhauser JL, Geldner N, Hong FX, Chory J. 2005. Molecular mechanisms of steroid hormone signaling in plants. Annual Review of Cell and Developmental Biology 21: 177-201**

Wada Y, Katsumi M. 2005. Brassinolide as a modulator of the activities of cell wall loosening proteins. Plant Biotechnology (Tokyo, Japan) 22: 33-38**

Wang J, Yan X, Pan R. 2005. Relationship between adventitious root formation and plant hormones. Zhiwu Shenglixue Tongxun 41: 133-142

Wang L, Wang X, Zhao C. 2005. Effects of Comcat cure of soybean injury induced by acetochlor. Nongyao 44: 521-522, 527

Wang SC, Tiwari SB, Hagen G, Guilfoyle TJ. 2005. AUXIN RESPONSE FACTOR7 restores the expression of auxin-responsive genes in mutant Arabidopsis leaf mesophyll protoplasts. Plant Cell 17: 1979-1993**

Wang X, Li X, Meisenhelder J, Hunter T, Yoshida S, Asami T, Chory J. 2005. Autoregulation and homodimerization are involved in the activation of the plant steroid receptor BRI1. Developmental Cell 8: 855-865**

Wang X, Wang C, Olsson O. 2005. Cloning and molecular characterisation of a gene encoding cytochrome P450 C-23 steroid hydroxylase (CYP90) from aspen. Acta Genetica Sinica 32: 384-392**

Wang XF, Goshe MB, Soderblom EJ, Phinney BS, Kuchar JA, Li J, Asami T, Yoshida S, Huber SC, Clouse SD. 2005. Identification and functional analysis of in vivo phosphorylation sites of the Arabidopsis BRASSINOSTEROID-INSENSITIVE1 receptor kinase. Plant Cell 17: 1685-1703**

Whippo CW, Hangarter RP. 2005. A brassinosteroid-hypersensitive mutant of BAK1 indicates that a convergence of photomorphogenic and hormonal signaling modulates phototropism. Plant Physiology 139: 448-457**

Xian L, Li Y, Liu R, Cao Q, Sun J. 2005. Reversing effect of brassinolide on multidrug resistance of CCRF-VCR1,000 cells and a preliminary study on its mechanisms. Acta Pharmaceutica Sinica 40: 117-121

Yang MT, Chen SL, Lin CY, Chen YM. 2005. Chilling stress suppresses chloroplast development and nuclear gene expression in leaves of mung bean seedlings. Planta 221: 374-385**

Yang XH, Xu ZH, Xue HW. 2005. Arabidopsis membrane steroid binding protein 1 is involved in inhibition of cell elongation. Plant Cell 17: 116-131**

Yin YH, Vafeados D, Tao Y, Yoshida S, Asami T, Chory J. 2005. A new class of transcription factors mediates brassinosteroid-regulated gene expression in Arabidopsis. Cell 120: 249-259**

Yokota T. 2005. Influence of plant steroids on herbivorous animals. Shokubutsu no Seicho Chosetsu 40: 62-66

Yoshida S, Kuriyama H, Fukuda H. 2005. Inhibition of transdifferentiation into tracheary elements by polar auxin transport inhibitors through intracellular auxin depletion. Plant Cell Physiology 46: 2019-2028**

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Yun HS, Kwon C, Kang BG, Lee JS, Han TJ, Chang SC, Kim SK. 2005. A xyloglucan endotransglycosylase/hydrolase1, VrXTH1, is associated with cell elongation in mungbean hypocotyls. Physiologia Plantarum 125: 106-113**

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2004

2006

 

 

(Revised on January 2012)