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  1. 首頁 > 植物應(yīng)用 > 植物激素 > 油菜素內(nèi)酯 > 24-表油菜素內(nèi)酯

24-表油菜素內(nèi)酯

    
高純,92%

24-Epibrassinolide

源葉
S18014 一鍵復(fù)制產(chǎn)品信息
78821-43-9
C28H48O6
480.68
MFCD00133310
蕓苔素內(nèi)酯;八仙豐產(chǎn)素;(22R,23R,24R)-2α,3α,22,23-四羥基-24-甲基-5α-膽甾-6-酮
貨號 規(guī)格 價格 上海 北京 武漢 南京 購買數(shù)量
S18014-100mg 高純,92% ¥480.00 >10 3 2 7
S18014-500mg 高純,92% ¥1440.00 >10 - 2 -
S18014-1g 高純,92% ¥2400.00 2 - - -
S18014-5g 高純,92% ¥7000.00 3 - - -
產(chǎn)品介紹 參考文獻(51篇) 質(zhì)檢證書(COA) 摩爾濃度計算器 相關(guān)產(chǎn)品

產(chǎn)品介紹

 屬廣譜性高效植物生長調(diào)節(jié)劑,對各種經(jīng)濟作物均有明顯增產(chǎn)作用,能有效調(diào)節(jié)植物各個生長環(huán)節(jié)

溶解性: DMSO  :  50  mg/mL
儲存條件: -20℃
注意: 部分產(chǎn)品我司僅能提供部分信息,我司不保證所提供信息的權(quán)威性,僅供客戶參考交流研究之用。

參考文獻(51篇)

46. [IF=3.9] Shuming Nie et al."Overexpression of SlMYB1R1 improves chilling stress tolerance in tomato."SCIENTIA HORTICULTURAE.2024 Dec;338:113662 45. [IF=3.9] Chu Luke et al."The Beneficial Effect of 24-Epibrassinolide Against High-Temperature Stress in Gracilariopsis lemaneiformis Revealed by Physiological Response and Transcriptomic Profiling."JOURNAL OF PLANT GROWTH REGULATION.2024 Aug;:1-15 44. [IF=6.5] Hai-Yuan Zhang et al."Brassinosteroids biosynthetic gene MdBR6OX2 regulates salt stress tolerance in both apple and Arabidopsis."PLANT PHYSIOLOGY AND BIOCHEMISTRY".2024 Jul;212:108767 43. [IF=5.6] Song Jurong et al."Comparative transcriptome and metabolome analysis revealed diversity in the response of resistant and susceptible rose (Rosa hybrida) varieties to Marssonina rosae."Frontiers in Plant Science".2024 Feb;15: 42. [IF=5.6] Zhou Xiangyan et al."Physiological responses and transcriptomic analysis of StCPD gene overexpression in potato under salt stresses."Frontiers in Plant Science".2024 Feb;15: 41. [IF=3.1] Chen Chen et al."Effects of Exogenous 24-Epibrassinolide Leaves Spraying Application on Chlorophyll Accumulation and Gene Expression Profiles of Chlorophyll Metabolism in Celery."Horticulturae.2023 Dec;9(12):1279 40. [IF=5.19] Basit Farwa et al."Nitric oxide and brassinosteroids enhance chromium stress tolerance in Glycine max L. (Merr.) by modulating antioxidative defense and glyoxalase systems."ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH.2023 Feb;:1-16 39. [IF=6.656] Hongfei Zhou et al."Effects of natural 24-epibrassinolide on inducing apoptosis and restricting metabolism in hepatocarcinoma cells."PHYTOMEDICINE.2022 Dec;107:154428 38. [IF=6.208] Chen Chen et al."24-Epibrassinolide Promotes Fatty Acid Accumulation and the Expression of Related Genes in Styrax tonkinensis Seeds."INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES.2022 Jan;23(16):8897 37. [IF=3.949] Yan-Hua Liu et al."24-Epibrassinolide and 2,6-Dichlorobenzonitrile Promoted Celery Petioles and Hypocotyl Elongation by Altering Cellulose Accumulation and Cell Length."Agronomy-Basel.2022 Jul;12(7):1670 36. [IF=4.64] Chen Chen et al."24-Epibrassinolide and Methyl Jasmonate Promoted Seed Development of Styrax tonkinensis and Affected Seed Chemical Compositions, Especially Seed Lipid Metabolism."JOURNAL OF PLANT GROWTH REGULATION.2022 Jun;:1-14 35. [IF=5.537] Xiaojie Liu et al."Brassinosteroids are involved in volatile compounds biosynthesis related to MdBZR1 in ‘Ruixue’ (Malus × domestica Borkh.) fruit."Postharvest Biol Tec. 2022 Jul;189:111931 34. [IF=4.411] Xin Liu et al."Development and Comprehensive SPE-UHPLC-MS/MS Analysis Optimization, Comparison, and Evaluation of 2,4-Epibrassinolide in Different Plant Tissues."Molecules. 2022 Jan;27(3):831 33. [IF=4.35] Ye Han et al."Brassinosteroid Accelerates Wound Healing of Potato Tubers by Activation of Reactive Oxygen Metabolism and Phenylpropanoid Metabolism."Foods. 2022 Jan;11(7):906 32. [IF=4.223] Peng Ruonan et al."Analysis of 2,4-epibrassinolide created an enhancement tolerance on Cd toxicity in Solanum nigrum L.."Environ Sci Pollut R. 2020 May;27(14):16784-16797 31. [IF=5.279] Shenghuai Hou et al."Boronic Acid-Functionalized Scholl-Coupling Mesoporous Polymers for Online Solid-Phase Extraction of Brassinosteroids from Plant-Derived Foodstuffs."J Agr Food Chem. 2021;69(16):4883–4893 30. [IF=5.923] Jingjue Zeng et al."Functional Characterization of VvSK Gene Family in Grapevine Revealing Their Role in Berry Ripening."Int J Mol Sci. 2020 Jan;21(12):4336 29. [IF=5.923] Shufen Wang et al."Modification of Threonine-825 of SlBRI1 Enlarges Cell Size to Enhance Fruit Yield by Regulating the Cooperation of BR-GA Signaling in Tomato."Int J Mol Sci. 2021 Jan;22(14):7673 28. [IF=8.34] Ji Yinglin et al."The mechanism for brassinosteroids suppressing climacteric fruit ripening."Plant Physiol. 2021 Apr;185(4):1875-1893 27. [IF=4.044] Taotao Li et al."Proteomic profiling of 24-epibrassinolide-induced chilling tolerance in harvested banana fruit."J Proteomics. 2018 Sep;187:1 26. [IF=4.27] Shuming Nie et al."Enhanced brassinosteroid signaling intensity via SlBRI1 overexpression negatively regulates drought resistance in a manner opposite of that via exogenous BR application in tomato."Plant Physiol Bioch. 2019 May;138:36 25. [IF=5.279] Yiheng He et al."Role of Brassinosteroids in Persimmon (Diospyros kaki L.) Fruit Ripening."J Agr Food Chem. 2018;66(11):2637–2644 24. [IF=5.537] Hui Gao et al."Effect of 24-epibrassinolide on chilling injury of peach fruit in relation to phenolic and proline metabolisms."Postharvest Biol Tec. 2016 Jan;111:390 23. Peng, R., Sun, W., Jin, X. et al. Analysis of 2,4-epibrassinolide created an enhancement tolerance on Cd toxicity in Solanum nigrum L.. Environ Sci Pollut Res 27, 16784–16797 (2020). https://doi.org/10.1007/s11356-020-08228-y 22. 游玉明,湯潔,張美霞,王大平,陸紅佳.外源24-表油菜素內(nèi)酯調(diào)控仔姜活性氧及酚類代謝減輕冷害[J].食品科學(xué),2021,42(03):273-280. 21. 周慧,王云香,王愈,李文生,常虹,周家華,王寶剛.EBR處理對甜櫻桃果實褐變及相關(guān)酶基因表達的影響[J].華北農(nóng)學(xué)報,2020,35(S1):24-30. 20. 張盛楠,黃益宗,李顏,保瓊莉,黃永春.Cd脅迫下不同外源植物激素對水稻幼苗抗氧化系統(tǒng)及Cd吸收積累的影響[J].環(huán)境科學(xué),2021,42(04):2040-2046. 19. 孫彤彤, 武春成, 宋士清. 外源水楊酸(SA),油菜素內(nèi)酯(BR)浸種對Ca(NO3)2脅迫下黃瓜幼苗光合特性及葉片解剖結(jié)構(gòu)的影響. 18. 李碩, 張毅, 姚棋,等. 等滲鹽脅迫下BR對番茄生長及滲透調(diào)節(jié)特性的影響[J]. 西北農(nóng)林科技大學(xué)學(xué)報(自然科學(xué)版), 2020, 048(004):130-136,145. 17. 王震, 朱磊, 宋金亮,等. 高溫脅迫下2,4-表油菜素內(nèi)酯對西葫蘆幼苗生理及光合特性的影響[J]. 河南農(nóng)業(yè)大學(xué)學(xué)報, 2016, 050(002):198-202. 16. 張永平, 陳幼源, 楊少軍. 高溫脅迫下2,4-表油菜素內(nèi)酯對甜瓜幼苗生理及光合特性的影響[J]. 植物生理學(xué)報, 2012(07):683-688. 15. 羅春紅, 王康才, 戴劍,等. 表油菜素內(nèi)酯對水分脅迫下菘藍相關(guān)指標(biāo)的影響[J]. 江西農(nóng)業(yè)學(xué)報, 2011, 23(011):17-19. 14. 李勇, 王紅光, 李瑞奇,等. 表油菜素內(nèi)酯對冬小麥開花后光合特性和物質(zhì)生產(chǎn)的影響[J]. 河北農(nóng)業(yè)大學(xué)學(xué)報, 2015. 13. 李勇, 王紅光, 李瑞奇, et al. 表油菜素內(nèi)酯對冬小麥產(chǎn)量及氮素吸收、積累和分配的影響[J]. 麥類作物學(xué)報, 2015, 35(2):239-250. 12. 呂海龍,師桂英,賈喜霞,李亞娟,黃煒,張立彭,高啟發(fā).硅肥及油菜素內(nèi)酯對茄子連作障礙的緩解作用及土壤生物化學(xué)效應(yīng)[J].甘肅農(nóng)業(yè)大學(xué)學(xué)報,2020,55(03):105-112. 11. 李冬, 王艷芳, 申洪濤,等. 外源MT 和EBR對干旱脅迫下烤煙幼苗的緩解效應(yīng)[J]. 中國煙草學(xué)報, 2019(5):77-85. 10. 李碩, 張毅, 姚棋,等. 外源BR對不同鹽脅迫下番茄幼苗生長及生理抗性的影響[J]. 山東農(nóng)業(yè)科學(xué), 2019, v.51;No.338(10):56-60. 9. 夏原野 杜志敏 楊宇塵 等. 噴施表油菜素內(nèi)酯對秈稻和粳稻花時的影響[J]. 作物雜志 2019 000(004):139-147. 8. 冉夢蓮 鐘翠婷. 不同濃度2 4-表油菜素內(nèi)酯對黃瓜種子萌發(fā)的影響[J]. 惠州學(xué)院學(xué)報 2019. 7. 周慧 王愈 王云香 等. EBR處理對甜櫻桃貯藏期間品質(zhì)及生理特性的影響[J]. 食品工業(yè)科技 2018(12):290-295. 6. 張永平 楊少軍 陳幼源. 2 4-表油菜素內(nèi)酯對高溫脅迫下甜瓜幼苗抗氧化酶活性和光合作用的影響[J]. 西北植物學(xué)報 2011(7). 5. 孫維悅 于麗杰 金曉霞 董延龍.2 4-EBL對不同濃度鎘脅迫下龍葵(Solanum nigrum L.)幼苗的緩解作用[J].分子植物育種 2019 17(11):3735-3745. 4. 李麗花 張瑞杰 姚遠麗 等. 24-表油菜素內(nèi)酯調(diào)控苯丙烷代謝增強杏果實抗病性的研究[J]. 現(xiàn)代食品科技 2017 033(009):71-76 19. 3. 秦晨亮 丁玲 代紅軍. 24-表油菜素內(nèi)酯對釀酒葡萄白藜蘆醇誘導(dǎo)合成的影響[J]. 西北農(nóng)業(yè)學(xué)報 2016 25(02):115-121. 2. 張杼潤 張瑞杰 趙津 等. 24-表油菜素內(nèi)酯對杏果實采后抗冷性與可溶性糖含量的影響[J]. 食品科學(xué) 2019 040(007):198-203. 1. 張瑞杰 張杼潤 李麗花 李爽 朱璇.24-表油菜素內(nèi)酯對杏果實貯藏品質(zhì)的影響[J].保鮮與加工 2020 20(01):36-40.

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