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  • 产品名称: Andy Fluor™ 594 Alkyne
  • 产品货号: CSC321
  • 货期: 现货
  • 价格与订购: 2500
  • 数量:
    库存: 10
  • 规格: 1 µmol
  • 产品信息
  • 如何订购
    Introduction
    Click chemistry describes a class of chemical reactions that use bio-orthogonal or biologically unique moieties to label and detect a molecule of interest in mild, aqueous conditions. The click reaction involves a copper-catalyzed triazole formation from an azide and an alkyne. The azide and alkyne moieties can be used interchangeably; either one can be used to tag the molecule of interest, while the other is used for subsequent detection.
    The Andy Fluor™ 594 alkyne is reactive with azide via a copper-catalyzed click reaction that allows the subsequent visualization by fluorescence spectroscopy.
    Features
    Efficiency—the click reaction is complete in less than 1 hour;
    Specificity—the reaction between the label and detection tag is selective and specific;
    Stability—the reaction product contains an irreversible, covalent bond;
    Biologically inert—the components of the reaction do not undergo any side reactions.
    Figure 1. Click chemistry labeling
    Label
    Andy Fluor™ 594
    Ex/Em
    590/615 
    Detection Method
    Fluorescent 
    Solubility
    DMSO, DMF
    Product Size
    1 µmol 
    Storage Conditions
    -20 ℃, protect from light 
    Shipping Condition
    Room Temperature 
    Applications
    Click chemistry labeling 
    Reference
    1.Click-mediated labeling of bacterial membranes through metabolic modification of the lipopolysaccharide inner core.
    Dumont A, Malleron A, Awwad M, Dukan S, Vauzeilles B,Angew Chem Int Ed Engl (2012) 51:3143-3146
    2.Site-specific terminal and internal labeling of RNA by poly(A) polymerase tailing and copper-catalyzed or copper-free strain-promoted click chemistry.
    Winz ML, Samanta A, Benzinger D, Jäschke A,Nucleic Acids Res (2012) 40:e78-e78
    3.Mutant methionyl-tRNA synthetase from bacteria enables site-selective N-terminal labeling of proteins expressed in mammalian cells.
    Ngo JT, Schuman EM, Tirrell DA,Proc Natl Acad Sci U S A (2013) 110:4992-4997
    4.Direct in-gel fluorescence detection and cellular imaging of O-GlcNAc-modified proteins.
    Clark PM, Dweck JF, Mason DE, Hart CR, Buck SB, Peters EC, Agnew BJ, Hsieh-Wilson LC,J Am Chem Soc (2008) 130:11576-11577
    5.Robust fluorescent detection of protein fatty-acylation with chemical reporters.
    Charron G, Zhang MM, Yount JS, Wilson J, Raghavan AS, Shamir E, Hang HC,J Am Chem Soc (2009) 131:4967-4975
    Note
    For research use only .