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脱落酸(天然)

内源性LANCL2激动剂
57篇引用文献 COA COA
    级别和纯度:
  • ≥98%
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货号 (SKU) 包装规格 是否现货 价格 数量
A100492-50mg
 50mg 现货 Stock Image
A100492-250mg
 250mg 现货 Stock Image
A100492-1g
 1g 现货 Stock Image
A100492-5g
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基本描述

别名 休眠素 | (S)-5-(1-羟基-2,6,6-三甲基-4-氧代-2-环己烯-1-基)-3-甲基-(2Z,4E)-戊二烯酸
英文别名 ABA | 2-cis,4-trans-Abscisic acid | C06082 | NSC 148832 | (2Z,4E)-5-((1S)-1-HYDROXY-2,6,6-TRIMETHYL-4-OXO-2-CYCLOHEXEN-1-YL)-3-METHYL-2,4-PENTADIENOIC ACID | 72S9A8J5GW | (S)-5-(1-Hydroxy-2,6,6-trimethyl-4-oxocyclohex-2-en-1-yl)-3-methyl-[2Z,4E]-pentadien
规格或纯度 ≥98%
英文名称 (+)-Abscisic acid
生化机理 内源性羊毛硫氨酸合成酶C样2(LANCL2)配体。在体外刺激肌细胞和前脂肪细胞摄取葡萄糖,在体内刺激棕色脂肪组织摄取葡萄糖。充当先天免疫系统细胞的促炎性调节剂。刺激人间充质和造血干细胞的增殖。也用于通过基于RNA聚合酶的生物传感器控制Cas9。
储存温度 避光,-20°C储存
运输条件 超低温冰袋运输
产品介绍

天然脱落酸((+)-Abscisic acid, S-ABA〕是一种具有倍半萜羧酸结构的植物天然生长调节物质,是植物体的“抗逆免疫因子”。1963年美国艾迪科特等从棉铃中提纯了一种物质能显著促进棉苗外植体叶柄脱落,称为脱落素II。英国韦尔林等也从短日照条件下的槭树叶片提纯一种物质,能控制落叶树木的休眠,称为休眠素。1965年证实,脱落素II和休眠素为同一种物质,统一命名为脱落酸。 脱落酸在衰老的叶片组织、成熟的果实、种子及茎、根部等许多部位形成。水分亏缺可以促进脱落酸形成。脱落酸在植物体内才再脱落酸可以刺激乙烯的产生,催促果实成熟,它抑制脱氧核糖核酸和蛋白质的合成。脱落酸的生理功能有以下几种: 1. 抑制与促进生长。外施脱落酸浓度大时抑制茎、下胚轴、根、胚芽鞘或叶片的生长。浓度低时却促进离体黄瓜子叶生根与下胚轴伸长,加速浮萍的繁殖,刺激单性结实种子发育。 2. 维持芽与种子休眠。休眠与体内赤霉素与脱落酸的平衡有关。 3. 促进果实与叶的脱落。 4. 促进气孔关闭。脱落酸可使气孔快速关闭,对植物又无毒害,是一种很好的抗蒸腾剂。检验脱落酸浓度的一种生物试法即是将离体叶片表皮漂浮于各种浓度脱落酸溶液表面,在一定范围内,其气孔开闭程度与脱落酸浓度呈反比。 5. 影响开花。在长日照条件下,脱落酸可使草莓和黑莓顶芽休眠,促进开花。 6. 影响性分化。赤霉素能使大麻的雌株形成雄花,此效应可被脱落酸逆转,但脱落酸不能使雄株形成雌花。

(+)-Abscisic acid is a plant hormone and growth regulator involved in several physiological mechanisms including seed dormancy, leaf abscission, stomatal movement, and plant stress responses such as drought. Abscisic acid has been used in a study to learn about expression analysis of four peroxiredoxin genes from Tamarix hispida.
纯度 ≥98%

关联靶点(人)

N9 (414 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID

关联靶点(其它种属)

Staphylococcus aureus (210822 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Arabidopsis thaliana (307 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Oryza sativa (2923 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Spinacia oleracea (250 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Lepidium sativum (398 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CYP707A3 Cytochrome P450 monooxygenase (43 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Lactuca sativa (1092 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID

作用机制

作用机制 Action Type target ID Target Name Target Type Target Organism Binding Site Name 参考文献

名称和识别符

PubChem SID 488195217
EC号 244-319-5
分子类型 小分子
IIUPAC Name (2Z,4E)-5-[(1S)-1-hydroxy-2,6,6-trimethyl-4-oxocyclohex-2-en-1-yl]-3-methylpenta-2,4-dienoic acid
INCHI 1S/C15H20O4/c1-10(7-13(17)18)5-6-15(19)11(2)8-12(16)9-14(15,3)4/h5-8,19H,9H2,1-4H3,(H,17,18)/b6-5+,10-7-/t15-/m1/s1
InChi Key JLIDBLDQVAYHNE-YKALOCIXSA-N
Smiles CC1=CC(=O)CC(C1(C=CC(=CC(=O)O)C)O)(C)C
Isomeric SMILES CC1=CC(=O)CC([C@]1(/C=C/C(=C\C(=O)O)/C)O)(C)C
分子量 264.32
Beilstein号 2698956
Reaxy-Rn 2943848
Reaxys-RN link address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=2943848&ln=

化学和物理性质

溶解性 溶于DMSO, 最高浓度 (mg/mL): 26.43, 最高浓度(mM): 100;溶于ethanol, 最高浓度 (mg/mL): 26.43, 最高浓度(mM): 100
密度 1.193
敏感性 对光敏感;对热敏感
比旋光度 410 ° (C=0.2, EtOH)
熔点 163°C
分子量 264.320 g/mol
XLogP3 1.600
氢键供体数Hydrogen Bond Donor Count 2
氢键受体数Hydrogen Bond Acceptor Count 4
可旋转键计数Rotatable Bond Count 3
精确质量Exact Mass 264.136 Da
单同位素质量Monoisotopic Mass 264.136 Da
拓扑极表面积Topological Polar Surface Area 74.600 Ų
重原子数Heavy Atom Count 19
形式电荷Formal Charge 0
复杂度Complexity 494.000
同位素原子数Isotope Atom Count 0
定义的原子立体中心计数Defined Atom Stereocenter Count 1
未定义的原子立体中心计数Undefined Atom Stereocenter Count 0
定义的键立体中心计数Defined Bond Stereocenter Count 2
未定义的键立体中心计数Undefined Bond Stereocenter Count 0
所有立体化学键的总数The total count of all stereochemical bonds 2
共价键合单元计数Covalently-Bonded Unit Count 1

安全和危险性(GHS)

象形图 GHS07
信号词 Warning
WGK Germany 3
RTECS RZ2475100
Merck Index 11
个人防护装备 Eyeshields,Gloves,type N95 (US),type P1 (EN143) respirator filter

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K2116068 分析证书 A100492
K2116070 分析证书 A100492
F2505073 分析证书 A100492
H2507114 分析证书 A100492
F2516098 分析证书 A100492
L2203024 分析证书 A100492
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L2203043 分析证书 A100492
B2321076 分析证书 A100492
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A2408139 分析证书 A100492
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A2409108 分析证书 A100492
A2409109 分析证书 A100492
A2409110 分析证书 A100492
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引用文献

1. 张长波.  (2022)  单激发双发射氮掺杂碳量子点的制备及其在生物成像和荧光油墨中的应用.  贵州师范大学学报( 自然科学版),  40  (4): (7-14).  [10.16614/j.gznuj.zrb.2022.04.002]
2. Guohui Li, Muhammad Aamir Manzoor, Guoyu Wang, Cunwu Chen, Cheng Song.  (2023)  Comparative analysis of KNOX genes and their expression patterns under various treatments in Dendrobium huoshanense.  Frontiers in Plant Science,  14  (1258533).  [PMID:37860241] [10.3389/fpls.2023.1258533]
3. Tao Xu, Min Zhang, Tianchi Chen, Lili Gong, Lingling Hu, Jie Yang, Haoxuan Si, Yueyan Wu.  (2023)  Identification of ABA Signaling Pathway Genes and Their Differential Regulation in Response to Suboptimal Light Stress in Grape (Vitis vinifera L.).  Horticulturae,  (7): (789).  [10.3390/horticulturae9070789]
4. Dong Li, Chunran Zhou, Shuai Wang, Zhan Hu, Jia Xie, Canping Pan, Ranfeng Sun.  (2023)  Imidacloprid-induced stress affects the growth of pepper plants by disrupting rhizosphere-plant microbial and metabolite composition.  SCIENCE OF THE TOTAL ENVIRONMENT,  898  (165395).  [PMID:37437628] [10.1016/j.scitotenv.2023.165395]
5. Junjie Yang, Jin Xu, Yingting Zhang, Jiebing Cui, Hailiang Hu, Jinyu Xue, Lijuan Zhu.  (2023)  Two R2R3-MYB transcription factors from Chinese cedar (Cryptomeria fortunei Hooibrenk) are involved in the regulation of secondary cell wall formation.  PLANT PHYSIOLOGY AND BIOCHEMISTRY,  201  (107879).  [PMID:37422947] [10.1016/j.plaphy.2023.107879]
6. Xinyi Zhang, Jiakun Zhou, Zemin Li, Yimin Qin, Ruitao Yu, Huaiwei Zhang, Yuhong Zheng, Jiangwei Zhu, Demeng Zhang, Li Fu.  (2019)  The Qualitative Electrochemical Determination of Multiple Components in Seaweed Fertilizer.  International Journal of Electrochemical Science,  14  (6283).  [10.20964/2019.07.16]
7. He Chengyong, Xing Fei, Liang Jiahui, Zhang Zhixiang, Zhan Binhui, Habili Nuredin, Wang Hongqing, Li Shifang.  (2023)  The ABI5-dependent down-regulation of mitochondrial ATP synthase OSCP subunit facilitates apple necrotic mosaic virus infection.  JOURNAL OF EXPERIMENTAL BOTANY,  [PMID:37086216] [10.1093/jxb/erad143]
8. Yang-yang XIAO, Jia-jia QIAN, Xing-liang HOU, Lan-ting ZENG, Xu LIU, Guo-guo MEI, Yin-yin LIAO.  (2023)  Diurnal emission of herbivore-induced (Z)-3-hexenyl acetate and allo-ocimene activates sweet potato defense responses to sweet potato weevils.  Journal of Integrative Agriculture,  22  (1782).  [10.1016/j.jia.2023.02.020]
9. Yong Yan, Min Ni, Fan Wang, Yue Yu, Xin Gong, Yue Huang, Wei Tao, Chao Li, Feng Wang.  (2022)  Metal–Organic Framework-Based Biosensor for Detecting Hydrogen Peroxide in Plants through Color-to-Thermal Signal Conversion.  ACS Nano,  16  (9): (15175–15187).  [PMID:36075214] [10.1021/acsnano.2c06481]
10. Rong Zhang, Wei Jia.  (2022)  Authenticity and traceability of goat milk: Molecular mechanism of β-carotene biotransformation and accessibility.  FOOD CHEMISTRY,  388  (133073).  [PMID:35483296] [10.1016/j.foodchem.2022.133073]
11. Yunlong Sang, Qi Liu, Shengxing Wang, Shuhan Dong, Yongzhe Fan, Xue Zhao, Shijie Li.  (2022)  Synthetic polyaniline-boron nitride-aqueous epoxy resin composite coating for improving the corrosion resistance of hot-dip galvanized steel plates.  APPLIED SURFACE SCIENCE,  592  (153229).  [10.1016/j.apsusc.2022.153229]
12. Han Xueyuan, Wang Xiaoyu, Shen Chi, Mo Yiwei, Tian Rungang, Mao Linchun, Luo Zisheng, Yang Huanyi.  (2022)  Exogenous ABA promotes aroma biosynthesis of postharvest kiwifruit after low-temperature storage.  PLANTA,  255  (4): (1-13).  [PMID:35257207] [10.1007/s00425-022-03855-w]
13. Xiaoya Tao, Qiong Wu, Suqing Huang, Beiwei Zhu, Feng Chen, Bin Liu, Luyun Cai, Linchun Mao, Zisheng Luo, Li Li, Tiejin Ying.  (2022)  Exogenous abscisic acid regulates primary metabolism in postharvest cherry tomato fruit during ripening.  SCIENTIA HORTICULTURAE,  299  (111008).  [10.1016/j.scienta.2022.111008]
14. Xiaoxia Tian, Yue Dai, Yuanyuan Cheng, Lingdong Zhang, Rong-Mei Kong, Lian Xia, Cong Kong, Guoliang Li.  (2022)  Combination of pipette tip solid phase extraction and high performance liquid chromatography for determination of plant growth regulators in food samples based on the electrospun covalent organic framework/polyacrylonitrile nanofiber as highly efficient sorbent.  JOURNAL OF CHROMATOGRAPHY A,  1661  (462692).  [PMID:34883355] [10.1016/j.chroma.2021.462692]
15. Xue Zhang, Lingling Gao, Ruihong Guo, Tuoping Hu, Mingming Ma.  (2021)  Using thiourea as a catalytic redox-active additive to enhance the performance of pseudocapacitive supercapacitors.  Sustainable Energy & Fuels,  (22): (5733-5740).  [10.1039/D1SE01129D]
16. Zhang Xiao-Hua, Wang Deguo, Guo Wei-Yun, Xiao Fu-Gang, Liu Xue-Jiao, Zhang Ai-Li, Qing Xiang-Dong, Liu Yanhong.  (2021)  Rapid identification of adulterated honey according to the targeted analysis of phenolic compounds using chemometrics.  EUROPEAN FOOD RESEARCH AND TECHNOLOGY,  247  (8): (1975-1985).  [10.1007/s00217-021-03764-4]
17. Xiao-Hua Zhang, Xiang-Dong Qing, Shu-Ting Mu, Deguo Wang, Jing-Jing Zheng, San-Jiu Zhou, Chao Kang, Zhi Liu.  (2021)  Authentication of honey of different nectar sources and antioxidant property evaluation by phenolic composition analysis with chemometrics.  FOOD CONTROL,  124  (107900).  [10.1016/j.foodcont.2021.107900]
18. Meng-Jun Li, Na Li, Guiju Xu, Ling-Xi Zhao, Xiangfeng Chen, Yanfang Zhao, Ru-Song Zhao.  (2021)  Magnetic boron nitride nanosheets as a novel magnetic solid-phase extraction adsorbent for the determination of plant growth regulators in tomatoes.  FOOD CHEMISTRY,  348  (129103).  [PMID:33515950] [10.1016/j.foodchem.2021.129103]
19. Jia Ding, Wenjing Jiang, Yunlei Zhou, Huanshun Yin, Shiyun Ai.  (2020)  Electrochemiluminescence immunosensor for 5-hydroxymethylcytosine detection based on PAMAM-nanosilver‑nitrogen doped graphene nanocomposite.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,  877  (114646).  [10.1016/j.jelechem.2020.114646]
20. Yinyin Liao, Lanting Zeng, Shunfa Rao, Dachuan Gu, Xu Liu, Yaru Wang, Hongbo Zhu, Xingliang Hou, Ziyin Yang.  (2020)  Induced biosynthesis of chlorogenic acid in sweetpotato leaves confers the resistance against sweetpotato weevil attack.  Journal of Advanced Research,  24  (513).  [PMID:32612857] [10.1016/j.jare.2020.06.011]
21. Qin Peige, Zhu Wenli, Han Lizhen, Zhang Xiaowan, Zhao Bing, Zhang Xuebin, Lu Minghua.  (2020)  Monodispersed mesoporous SiO2@metal-organic framework (MSN@MIL-101(Fe)) composites as sorbent for extraction and preconcentration of phytohormones prior to HPLC-DAD analysis.  MICROCHIMICA ACTA,  187  (6): (1-9).  [PMID:32494885] [10.1007/s00604-020-04326-3]
22. Shuhuai Li, Chaohai Pang, Xionghui Ma, Haibo Li, Min Zhao, Chunhua Liu, Jinhui Luo.  (2020)  A gold nanoparticle-loaded molecularly imprinted switch sensor with high sensitivity to ethephon.  MICROCHEMICAL JOURNAL,  157  (105025).  [10.1016/j.microc.2020.105025]
23. Lili Yang, Hao Wang, Haitao Lü, Ni Hui.  (2020)  Phytic acid functionalized antifouling conducting polymer hydrogel for electrochemical detection of microRNA.  ANALYTICA CHIMICA ACTA,  1124  (104).  [PMID:32534662] [10.1016/j.aca.2020.05.025]
24. Ying Sun, Mei Gao, Seogchan Kang, Chengmin Yang, Hui Meng, Yun Yang, Xiangsheng Zhao, Zhihui Gao, Yanhong Xu, Yue Jin, Xiaohong Zhao, Zheng Zhang, Jianping Han.  (2020)  Molecular Mechanism Underlying Mechanical Wounding-Induced Flavonoid Accumulation in Dalbergia odorifera T. Chen, an Endangered Tree That Produces Chinese Rosewood.  Genes,  11  (5): (478).  [PMID:32353985] [10.3390/genes11050478]
25. Lei Zhang, Chunyan Jiao, Yunpeng Cao, Xi Cheng, Jian Wang, Qing Jin, Yongping Cai.  (2020)  Comparative Analysis and Expression Patterns of the PLP_deC Genes in Dendrobium officinale.  INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES,  21  (1): (54).  [PMID:31861760] [10.3390/ijms21010054]
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31. Qiong Wu, Xiaoya Tao, Xinzi Ai, Zisheng Luo, Linchun Mao, Tiejin Ying, Li Li.  (2018)  Contribution of abscisic acid to aromatic volatiles in cherry tomato (Solanum lycopersicum L.) fruit during postharvest ripening.  PLANT PHYSIOLOGY AND BIOCHEMISTRY,  130  (205).  [PMID:29990773] [10.1016/j.plaphy.2018.06.039]
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33. Xueyuan Han, Wenjing Lu, Xiaopeng Wei, Li Li, Linchun Mao, Yuying Zhao.  (2018)  Proteomics analysis to understand the ABA stimulation of wound suberization in kiwifruit.  Journal of Proteomics,  173  (42).  [PMID:29191746] [10.1016/j.jprot.2017.11.018]
34. Zhifei Chen, Zhi Wang, Yungui Yang, Min Li, Bingcheng Xu.  (2018)  Abscisic acid and brassinolide combined application synergistically enhances drought tolerance and photosynthesis of tall fescue under water stress.  SCIENTIA HORTICULTURAE,  228  (1).  [10.1016/j.scienta.2017.10.004]
35. Linna You, Man He, Beibei Chen, Bin Hu.  (2017)  One-pot synthesis of zeolitic imidazolate framework-8/poly (methyl methacrylate-ethyleneglycol dimethacrylate) monolith coating for stir bar sorptive extraction of phytohormones from fruit samples followed by high performance liquid chromatography-ultraviolet detection.  JOURNAL OF CHROMATOGRAPHY A,  1524  (57).  [PMID:29017722] [10.1016/j.chroma.2017.10.001]
36. Wenjing Lu, Jingxin Chen, Xingchen Ren, Jiajia Yuan, Xueyuan Han, Linchun Mao, Tiejin Ying, Zisheng Luo.  (2018)  One novel strawberry MADS-box transcription factor FaMADS1a acts as a negative regulator in fruit ripening.  SCIENTIA HORTICULTURAE,  227  (124).  [10.1016/j.scienta.2017.09.042]
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