Phos-tag™ 琼脂糖枪头 Phos-tag™ Tip

Phos-tag™ 琼脂糖枪头
Phos-tag™ Tip

  • 产品特性
  • 相关资料
  • Q&A
  • 参考文献

Phos-tag™ 琼脂糖枪头Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip

Phos-tag™ Tip

  可特异性捕捉磷酸基团的功能性分子“Phos-tag ™”的磷酸化肽纯化用枪头。

  枪头里含有 Phos-tag ™ 琼脂糖,是即开即用的前处理工具,适用于生理状态下低分子量磷酸化分子(核酸和多肽等)的分离和富集。


原理


把 Phos-tag™ Tip 装在注射器(购买产品附送)上使用。


                                   

Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip

 

                                                           

Phos-tag ™ Tip 的结构


Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip

优点、特色


 操作时间少于30分钟 

 高回收率可重复利用

 无需昂贵仪器

 缓冲液为生理 pH 条件下


案例、应用


分离磷酸化肽使用例


Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip



Phos-tag™ 系列

磷酸化蛋白新方法!

  Phos-tag™是一种能与磷酸离子特异性结合的功能性分子。它可用于磷酸化蛋白的分离(Phos-tag™ Acrylamide)、Western Blot 检测(Phos-tag™ Biotin)、蛋白纯化 (Phos-tag™Agarose)及质谱分析 MALDI-TOF/MS (Phos-tag™ Mass Analytical Kit)。


◆Phos-tag™ 的基本结构

Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip



原理:


Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip



特点:


●   与 -2 价磷酸根离子的亲和性和选择性高于其它阴离子

●   在 pH 5-8 的生理环境下生成稳定的复合物

相关应用:


Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip

相关产品:

 产品名称

 用  途

 Phos-tag™ Acrylamide

 分离:SDS – PAGE 分离不同磷酸化水平的蛋白

 SuperSep Phos-tag™

 分离:预制胶中含有 50 μM Phos-tag™ Acrylamide

 Phos-tag™ Biotin

 检测:代替 Western Blot 检测中的磷酸化抗体

 Phos-tag™ Agarose

 纯化:通用柱层析,纯化磷酸化蛋白

 Phos-tag™ Mass

 Analytical Kit

 分析:用于质谱 MALDI-TOF/MS 分析,提高磷酸化分子的检测灵敏度


phos-tag™ 由日本广岛大学研究生院医齿药学综合研究科医药分子功能科学研究室开发。

更多产品信息,请点击:

Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip

Phos-tag 第6版说明书

Phos-tag™ 琼脂糖枪头                              Phos-tag™ Tip

Phos-tag系列 ver. 8


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·  OVATE Family Protein 8 Positively Mediates Brassinosteroid Signaling through Interacting with the GSK3-like Kinase in Rice[J]. PLoS Genet, 2016, 12(6): e1006118,Yang C, Shen W, He Y, et al.

·  Epithelial Sel1L is required for the maintenance of intestinal homeostasis[J]. Molecular biology of the cell, 2016, 27(3): 483-490, Sun S, Lourie R, Cohen S B, et al.

·  Effect of Sodium Dodecyl Sulfate Concentration on Supramolecular Gel Electrophoresis[J]. ChemNanoMat, 2016,Tazawa S, Kobayashi K, Yamanaka M.

·  Intergenic VNTR Polymorphism Upstream of rocA Alters Toxin Production and Enhances Virulence in Streptococcus pyogenes[J]. Infection and immunity, 2016: IAI. 00258-16,Zhu L, Olsen R J, Horstmann N, et al.

·  Ajuba Phosphorylation by CDK1 Promotes Cell Proliferation and Tumorigenesis[J]. Journal of Biological Chemistry, 2016: jbc. M116. 722751,Chen X, Stauffer S, Chen Y, et al.

·  Editorial: International Plant Proteomics Organization (INPPO) World Congress 2014[J]. Frontiers in Plant Science, 2016, 7,Heazlewood J L, Jorrín-Novo J V, Agrawal G K, et al.

·  Phosphoinositide kinase signaling controls ER-PM cross-talk[J]. Molecular biology of the cell, 2016, 27(7): 1170-1180,Omnus D J, Manford A G, Bader J M, et al.

·  A multiple covalent crosslinked soft hydrogel for bioseparation[J]. Chemical Communications, 2016, 52(15): 3247-3250,Liu Z, Fan L, Xiao H, et al.

·  Advances in crop proteomics: PTMs of proteins under abiotic stress[J]. Proteomics, 2016, 16(5): 847-865,Wu X, Gong F, Cao D, et al.

·  Cyclin-Dependent Kinase Co-Ordinates Carbohydrate Metabolism and Cell Cycle in S. cerevisiae[J]. Molecular cell, 2016, 62(4): 546-557,Zhao G, Chen Y, Carey L, et al.

·  Carbon Monoxide Gas Is Not Inert, but Global, in Its Consequences for Bacterial Gene Expression, Iron Acquisition, and Antibiotic Resistance[J]. Antioxidants & redox signaling, 2016,Wareham L K, Begg R, Jesse H E, et al.

·  Two-layer regulation of PAQR3 on ATG14-linked class III PtdIns3K activation upon glucose starvation[J]. Autophagy, 2016: 1-2,Xu D, Wang Z, Chen Y.

·  Regulation of sphingolipid biosynthesis by the morphogenesis checkpoint kinase Swe1[J]. Journal of Biological Chemistry, 2016, 291(5): 2524-2534,Chauhan N, Han G, Somashekarappa N, et al.

·  PAX5 tyrosine phosphorylation by SYK co-operatively functions with its serine phosphorylation to cancel the PAX5-dependent repression of BLIMP1: A mechanism for antigen-triggered plasma cell differentiation[J]. Biochemical and biophysical research communications, 2016, 475(2): 176-181,Inagaki Y, Hayakawa F, Hirano D, et al.

·  A Combined Computational and Genetic Approach Uncovers Network Interactions of the Cyanobacterial Circadian Clock[J]. Journal of Bacteriology, 2016: JB. 00235-16,Boyd J S, Cheng R R, Paddock M L, et al.

·  HuR mediates motility of human bone marrow-derived mesenchymal stem cells triggered by sphingosine 1-phosphate in liver fibrosis[J]. Journal of Molecular Medicine, 2016: 1-14,Chang N, Ge J, Xiu L, et al.

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References on Phos-tag™ Chemistry

  • Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry of phosphorylated compounds using a novel phosphate capture moleculeRapid Communications of Mass Spectrometry17, 2075-2081 (2003), H. Takeda, A. Kawasaki, M. Takahashi, A. Yamada, and T. Koike 

  • Recognition of phosphate monoester dianion by an alkoxide-bridged dinuclear zinc (II) complexDalton Transactions, 1189-1193 (2004), E. Kinoshita, M. Takahashi, H. Takeda, M. Shiro, and T. Koike

  • Quantitative analysis of lysophosphatidic acid by time-of-flight mass spectrometry using a phosphate capture molecule, Journal of Lipid Research45, 2145-2150 (2004), T. Tanaka, H. Tsutsui, K. Hirano, T. Koike, A. Tokumura, and K. Satouchi

  •  Production of 1,2-Didocosahexaenoyl Phosphatidylcholine by Bonito Muscle Lysophosphatidylcholine/TransacylaseJournal of Biochemistry,136, 477-483 (2004), K. Hirano, H. Matsui, T. Tanaka, F. Matsuura, K. Satouchi, and T. Koike

  • Novel immobilized zinc(II) affinity chromatography for phosphopeptides and phosphorylated proteins, Journal of Separation Science, 28, 155-162 (2005), E. Kinoshita, A. Yamada, H. Takeda, E. Kinoshita-Kikuta, and T. Koike

  • Detection and Quantification of On-Chip Phosphorylated Peptides by Surface Plasmon Resonance Imaging Techniques Using a Phosphate Capture MoleculeAnalytical Chemistry77, 3979-3985 (2005), K. Inamori, M. Kyo, Y. Nishiya, Y. Inoue, T. Sonoda, E. Kinoshita, T. Koike, and Y. Katayama

  • Phosphate-binding tag: A new tool to visualize phosphorylated proteins, Molecular & Cellular Proteomics, 5, 749-757 (2006), E. Kinoshita, E. Kinoshita-Kikuta, K. Takiyama, and T. Koike

  • Enrichment of phosphorylated proteins from cell lysate using phosphate-affinity chromatography at physiological pHProteomics, 6, 5088-5095 (2006), E. Kinoshita-Kikuta, E. Kinoshita, A. Yamada, M. Endo, and T. Koike

  • Separation of a phosphorylated histidine protein using phosphate affinity polyacrylamide gel electrophoresis, Analytical Biochemistry360, 160-162 (2007), S. Yamada, H. Nakamura, E. Kinoshita, E. Kinoshita-Kikuta, T. Koike, and Y. Shiro

  • Label-free kinase profiling using phosphate-affinity polyacrylamide gel electrophresisMolecular & Cellular Proteomics, 6, 356-366 (2007), E. Kinoshita-Kikuta, Y. Aoki, E. Kinoshita, and T. Koike

  • A SNP genotyping method using phosphate-affinity polyacrylamide gel electrophoresis, Analytical Biochemistry361, 294-298 (2007), E. Kinoshita, E. Kinoshita-Kikuta, and T. Koike (The phosphate group at DNA-terminal is efficiently captured by Zn2+.Phos-tag.)

  • Identification on Membrane and Characterization of Phosphoproteins Using an Alkoxide-Bridged Dinuclear Metal Complex as a Phosphate-Binding Tag MoleculeJournal of Biomolecular Techniques18, 278-286 (2007), T. Nakanishi, E. Ando, M. Furuta, E. Kinoshita, E. Kikuta-Kinoshita, T. Koike, S. Tsunasawa, and O. Nishimura

  • A mobility shift detection method for DNA methylation analysis using phosphate affinity polyacrylamide gel electrophoresisAnalytical Biochemistry378, 102-104 (2008), E. Kinoshita-Kikuta, E. Kinoshita, and T. Koike

  • Separation of phosphoprotein isotypes having the same number of phosphate groups using phosphate- affinity SDS-PAGEProteomics, 8, 2994-3003 (2008), E. Kinoshita, E. Kinoshita-Kikuta, M. Matsubara, S. Yamada, H. Nakamura, Y. Shiro, Y. Aoki, K. Okita, and T. Koike

  • FANCI phosphorylation functions as a molecular switch to turn on the Fanconi anemia pathwayNature Structural & Molecular Biology15, 1138-1146 (2008), M. Ishiai, H. Kitao, A. Smogorzewska, J. Tomida, A. Kinomura, E. Uchida, A. Saberi, E. Kinoshita, E. Kinoshita-Kikuta, T. Koike, S. Tashiro, S. J. Elledge, and M. Takata

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  • Two-dimensional phosphate affinity gel electrophoresis for the analysis of phosphoprotein isotypes Electrophoresis30, 550-559 (2009), E. Kinoshita, E. Kinoshita-Kikuta, M. Matsubara, Y. Aoki, S. Ohie, Y. Mouri, and T. Koike

  • Formation of lysophosphatidic acid, a wound-healing lipid, during digestion of cabbage leavesBioscience, Biotechnology, and Biochemistry,73, 1293-300 (2009), T. Tanaka, G. Horiuchi, M. Matsuoka, K. Hirano, A. Tokumura, T. Koike, and K. Satouchi

  • A Phos-tag-based fluorescence resonance energy transfer system for the analysis of the dephosphorylation of phosphopeptidesAnalytical Biochemistry388, 235-241, (2009), K. Takiyama, E. Kinoshita, E. Kinoshita-Kikuta, Y. Fujioka, Y. Kubo, and T. Koike

  • Phos-tag beads as an immunoblotting enhancer for selective detection of phosphoproteins in cell lysatesAnalytical Biochemistry389, 83-85, (2009), E. Kinoshita-Kikuta, E. Kinoshita, and T. Koike

  • Mobility shift detection of phosphorylation on large proteins using a Phos-tag SDS-PAGE gel strengthened with agaroseProteomics9, 4098- 4101 (2009), E. Kinoshita, E. Kinoshita-Kikuta, H. Ujihara, and T. Koike

  • Separation and detection of large phosphoproteins using Phos-tag SDS-PAGENature Protocols4, 1513-1521 (2009), E. Kinoshita, E. Kinoshita-Kikuta, and T. Koike

  • A clean-up technology for the simultaneous determination of lysophosphatidic acid and sphingosine-1-phosphate by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry using a phosphate-capture molecule, Phos-tagRapid Communications in Mass Spectrometry24, 1075-1084 (2010), J. Morishige, M. Urikura, H. Takagi, K. Hirano, T. Koike, T. Tanaka, and K. Satouchi

  • Genotyping and mapping assay of single-nucleotide polymorphisms in CYP3A5 using DNA-binding zinc(II) complexesClinical Biochemistry43, 302-306 (2010), E. Kinoshita, E. Kinoshita-Kikuta, H. Nakashima, and T. Koike

  • The DNA-binding activity of mouse DNA methyltransferase 1 is ragulated phosphorylation with casein kinase 1σ/εBiochemical Journal427, 489-497 (2010), Y. Sugiyama, N. Hatano, N. Sueyoshi, I. Suetake, S. Tajima, E. Kinoshita, E. Kinoshita-Kikuta, T. Koike, and I. Kameshita


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