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核黄素磷酸钠

15篇引用文献 COA COA
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库存信息

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库存信息

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库存信息

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货号 (SKU) 包装规格 是否现货 价格 数量
R106431-1g
 1g 现货 Stock Image
R106431-5g
 5g 现货 Stock Image
R106431-25g
 25g 现货 Stock Image
R106431-100g
 100g 现货 Stock Image
大包装询价 收藏夹 比较  SDS下载  DATASHEET  质量标准
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代谢物 (8911)
main product photo

基本描述

别名 维生素B2磷酸钠,黄素单核苷酸钠
英文别名 Photrexa | Riboflavine-5'-phosphate sodium | FLAVIN MONONUCLEOTIDE MONOSODIUM SALT [MI] | NSC 759230 | Riboflavina 5 fosfato de sodio | Riboflavin 5'-(dihydrogen phosphate), sodium salt (1:1) | Riboflavin monophosphate monosodium salt | W-108348 | MFCD000
规格或纯度 PharmPure™, USP
英文名称 Riboflavin Sodium phosphate
生化机理 核黄素磷酸钠在中间代谢中充当辅酶。通过黄素激酶磷酸化维生素B12可生成FMN。
应用 Riboflavin 5′-monophosphate (FMN) is used as a prosthetic group by oxidoreductase (one and two electron transfer) enzymes such as NADH dehydrogenases, nitric oxide synthases, and nitrilotriacetate monooxygenases. Riboflavin 5′-monophosphate is used as a substrate to study the specificity and kinetics of FMN phosphohydrolases. FMN is used to study molecular sensing based gene regulation by riboswitches. Riboflavin 5′-phosphate sodium salt hydrate has been used: ? as a photosensitizing agent to assess in vitro efficacy of photodynamic therapy (PDT) on fungi. ? to evaluate its in vivo delivery in rat corneas. ? as a component in Vitamin and growth factor stock mix.
储存温度 -20°C储存,充氩
运输条件 超低温冰袋运输
产品介绍

核黄素磷酸钠是一种维生素B12衍生物,含有异恶嗪环系统。最大吸收波长: 446(H2O) nm

 Riboflavin 5′-phosphate sodium salt hydrate has been used:

• as a photosensitizing agent to assess in vitro efficacy of photodynamic therapy (PDT) on fungi.

• to evaluate its in vivo delivery in rat corneas.

• as a component in Vitamin and growth factor stock mix.

关联靶点(人)

TST Tchem 硫代硫酸盐硫转移酶(Thiosulfate sulfurtransferase) (0 活性数据)
活性类型 活性值-log(M) 作用机制 期刊 参考文献(PubMed IDs)

名称和识别符

PubChem SID 504769527
EC号 204-988-6
IIUPAC Name sodium;[(2R,3S,4S)-5-(7,8-dimethyl-2,4-dioxobenzo[g]pteridin-10-yl)-2,3,4-trihydroxypentyl] hydrogen phosphate
INCHI 1S/C17H21N4O9P.Na/c1-7-3-9-10(4-8(7)2)21(15-13(18-9)16(25)20-17(26)19-15)5-11(22)14(24)12(23)6-30-31(27,28)29;/h3-4,11-12,14,22-24H,5-6H2,1-2H3,(H,20,25,26)(H2,27,28,29);/q;+1/p-1/t11-,12+,14-;/m0./s1
InChi Key OHSHFZJLPYLRIP-BMZHGHOISA-M
Smiles CC1=CC2=C(C=C1C)N(C3=NC(=O)NC(=O)C3=N2)CC(C(C(COP(=O)(O)[O-])O)O)O.[Na+]
Isomeric SMILES CC1=CC2=C(C=C1C)N(C3=NC(=O)NC(=O)C3=N2)C[C@@H]([C@@H]([C@@H](COP(=O)(O)[O-])O)O)O.[Na+]
PubChem CID 23666409
分子量 478.33
Beilstein号 4106529

化学和物理性质

溶解性 可溶于水
敏感性 对热敏感,对光线敏感,对湿度敏感
比旋光度 41 ° (C=1.5, 5mol/L HCl)
分子量 478.300 g/mol
XLogP3
氢键供体数Hydrogen Bond Donor Count 5
氢键受体数Hydrogen Bond Acceptor Count 10
可旋转键计数Rotatable Bond Count 7
精确质量Exact Mass 478.087 Da
单同位素质量Monoisotopic Mass 478.087 Da
拓扑极表面积Topological Polar Surface Area 204.000 Ų
重原子数Heavy Atom Count 32
形式电荷Formal Charge 0
复杂度Complexity 856.000
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 3
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 0
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 0
共价键合单元计数Covalently-Bonded Unit Count 2

安全和危险性(GHS)

WGK Germany 3
Merck Index 8201
个人防护装备 Eyeshields,Gloves,type N95 (US),type P1 (EN143) respirator filter

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批号(Lot Number) 证书类型 货号
G2524105 分析证书 R106431
G2522076 分析证书 R106431
D2121252 分析证书 R106431
A2218016 分析证书 R106431
I2405037 分析证书 R106431
C2222489 分析证书 R106431
C2222514 分析证书 R106431
C2222522 分析证书 R106431
C2222566 分析证书 R106431
J2310199 分析证书 R106431
E2413047 分析证书 R106431

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引用文献

1. G Ravi,Yeldur P Venkatesh.  (2014-03-20)  Recognition of riboflavin and the capsular polysaccharide of Haemophilus influenzae type b by antibodies generated to the haptenic epitope D-ribitol..  Glycoconjugate journal,  31  ((3)): (247-258).  [PMID:24643482]
2. Alejandro Arboleda,Darlene Miller,Florence Cabot,Mukesh Taneja,Mariela C Aguilar,Karam Alawa,Guillermo Amescua,Sonia H Yoo,Jean-Marie Parel.  (2014-05-06)  Assessment of rose bengal versus riboflavin photodynamic therapy for inhibition of fungal keratitis isolates..  American journal of ophthalmology,  158  ((1)): (64-70).  [PMID:24792103]
3. Johanna Mock,Shuning Wang,Haiyan Huang,Jörg Kahnt,Rudolf K Thauer.  (2014-07-09)  Evidence for a hexaheteromeric methylenetetrahydrofolate reductase in Moorella thermoacetica..  Journal of bacteriology,  196  ((18)): (3303-3314).  [PMID:25002540]
4. Anke Böhmer,Stepan Gambaryan,Markus Flentje,Jens Jordan,Dimitrios Tsikas.  (2014-07-18)  [Ureido-¹⁵N]citrulline UPLC-MS/MS nitric oxide synthase (NOS) activity assay: development, validation, and applications to assess NOS uncoupling and human platelets NOS activity..  Journal of chromatography. B, Analytical technologies in the biomedical and life sciences,  965  (173-182).  [PMID:25033468]
5. Anke Böhmer,Stepan Gambaryan,Dimitrios Tsikas.  (2014-11-02)  Human blood platelets lack nitric oxide synthase activity..  Platelets,  26  ((6)): (583-588).  [PMID:25360996]
6. Jiexun Huang,Guojing Ning,Feili Li,G Daniel Sheng.  (2015-01-21)  Biotransformation of 2,4-dinitrotoluene by obligate marine Shewanella marisflavi EP1 under anaerobic conditions..  Bioresource technology,  180  (200-206).  [PMID:25603529]
7. Binbin Sheng,Jing Xu,Yingxin Zhang,Tianyi Jiang,Sisi Deng,Jian Kong,Chao Gao,Cuiqing Ma,Ping Xu.  (2015-04-12)  Utilization of D-Lactate as an Energy Source Supports the Growth of Gluconobacter oxydans..  Applied and environmental microbiology,  81  ((12)): (4098-4110).  [PMID:25862219]
8. Alejandro Arboleda,Laura Kowalczuk,Michèle Savoldelli,Christophe Klein,Sophia Ladraa,Marie-Christine Naud,Mariela C Aguilar,Jean-Marie Parel,Francine Behar-Cohen.  (2014-03-29)  Evaluating in vivo delivery of riboflavin with coulomb-controlled iontophoresis for corneal collagen cross-linking: a pilot study..  Investigative ophthalmology & visual science,  55  ((4)): (2731-2738).  [PMID:24667860]
9. Marta Castrillo,Adrian Bernhardt,Javier Ávalos,Alfred Batschauer,Richard Pokorny.  (2015-07-29)  Biochemical Characterization of the DASH-Type Cryptochrome CryD From Fusarium fujikuroi..  Photochemistry and photobiology,  91  ((6)): (1356-1367).  [PMID:26215424]
10. Shihui Qiu, Yue Yu, Yun-Han Chang, Lei Shan, Shoufang Xu.  (2024)  Nonconductive layered hexagonal boron nitride preparation via a co-exfoliation strategy and nanohybrid coating construction for corrosion protection.  PROGRESS IN ORGANIC COATINGS,  186  (108052).  [10.1016/j.porgcoat.2023.108052]
11. Guangdong Sun, Xiuling He, Meilin Feng, Xia Xu, Jine Chen, Yongqiang Wang.  (2023)  Flavin mononucleotide in visible light photoinitiating systems for multiple-photocrosslinking and photoencapsulation strategies.  Acta Biomaterialia,  172  (272).  [PMID:37797710] [10.1016/j.actbio.2023.09.051]
12. Lei Jiafeng, Zhang Yaqin, Yao Yanxin, Shi Yang, Leung Ka Lok, Fan Jun, Lu Yi-Chun.  (2023)  An active and durable molecular catalyst for aqueous polysulfide-based redox flow batteries.  Nature Energy,  (1-10).  [10.1038/s41560-023-01370-0]
13. Gangying Feng, Shitong Zhang, Shuangling Zhong, Miao Tan, Yongyan Yang, Yueming Dou, Xuejun Cui.  (2021)  Temperature and pH dual-responsive supramolecular hydrogels based on riboflavin sodium phosphate and 2,6-Diaminopurine with thixotropic and fluorescent properties.  COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,  630  (127548).  [10.1016/j.colsurfa.2021.127548]
14. Yue Lang, Yanan Yu, Hongtao Zou, Jiexu Ye, Shihan Zhang, Jianmeng Chen.  (2022)  Flavin mononucleotide-stimulated microbial fuel cell for efficient gaseous toluene abatement.  CHEMOSPHERE,  287  (132247).  [PMID:34826930] [10.1016/j.chemosphere.2021.132247]
15. Gabriel Sikukuu Nambafu, Kumar Siddharth, Cheng Zhang, Tianshou Zhao, Qing Chen, Khalil Amine, Minhua Shao.  (2021)  An organic bifunctional redox active material for symmetric aqueous redox flow battery.  Nano Energy,  89  (106422).  [10.1016/j.nanoen.2021.106422]
16. Jingyi Liu, Shuhua Han, Yongfeng Hu, Chih-Wen Pao.  (2021)  Fabrication and characterization of a novel PMO containing riboflavin-5'-phosphate sodium salt for sensitive detection of pesticide ferbam.  COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,  617  (126375).  [10.1016/j.colsurfa.2021.126375]
17. Chenxi Yu, Wenyu Zhu, Zhaozhan He, Jin Xu, Fengyan Fang, Ziang Gao, Wenli Ding, Yixiang Wang, Jing Wang, Junqiao Wang, Ao Huang, Aohua Cheng, Yanhui Wei, Shiyun Ai.  (2021)  ATP-triggered drug release system based on ZIF-90 loaded porous poly(lactic-co-glycolic acid) microspheres.  COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,  615  (126255).  [10.1016/j.colsurfa.2021.126255]
18. Junli Guo, Lingling Yang, Zhida Gao, Chenxi Zhao, Ye Mei, Yan-Yan Song.  (2020)  Insight of MOF Environment-Dependent Enzyme Activity via MOFs-in-Nanochannels Configuration.  ACS Catalysis,  10  (10): (5949–5958).  [10.1021/acscatal.0c00591]
19. Chunning Heng, Xiaoyan Zheng, Meiying Liu, Dazhuang Xu, Hongye Huang, Fengjie Deng, Junfeng Hui, Xiaoyong Zhang, Yen Wei.  (2016)  Fabrication of luminescent hydroxyapatite nanorods through surface-initiated RAFT polymerization: Characterization, biological imaging and drug delivery applications.  APPLIED SURFACE SCIENCE,  386  (269).  [10.1016/j.apsusc.2016.05.157]
20. Zhixiong Li, Ruizheng Liang, Wendi Liu, Dongpeng Yan, Min Wei.  (2015)  A dual-stimuli-responsive fluorescent switch ultrathin film.  Nanoscale,  (40): (16737-16743).  [PMID:26400734] [10.1039/C5NR05376E]
21. Jiang Wu, Ying Liu, Wei Li, Chunyan Wang, Yanjun Li, Ying Tian, Jing Sun, Shouju Wang, Xin Wang, Yuxia Tang, Hong Zhu, Zhaogang Teng, Guangming Lu.  (2014)  Magnetically guided survivin-siRNA delivery and simultaneous dual-modal imaging visualization based on Fe3O4@mTiO2 nanospheres for breast cancer.  Journal of Materials Chemistry B,  (44): (7756-7764).  [PMID:32261912] [10.1039/C4TB01264J]
22. Yinglai Hou, Zhizhi Sheng, Mengchuang Zhang, Kaifa Lin, Jie Kong, Xuetong Zhang.  (2024)  Hierarchically Porous Carbon Colloidal Aerogels for Highly Efficient Flow Cells.  ADVANCED FUNCTIONAL MATERIALS,  (2418721).  [10.1002/adfm.202418721]
23. Hao Wu, Jinqiu Tao, Junhao Xie, Chengbao Liu, Qianping Ran.  (2024)  Room-temperature fast self-healing graphene polyurethane network with high robustness and ductility through biomimetic interface structures.  Nano Materials Science,  [10.1016/j.nanoms.2024.04.007]

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