Staudinger Ligation as a Method for Bioconjugation

Berkel, Sander S. van; Eldijk, Mark B. van; Hest, Jan C. M. van

doi:10.1002/anie.201008102

Cited by 249 publications

(149 citation statements)

References 156 publications

(162 reference statements)

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“…The [3 + 2] Huisgen cycloaddition and the copper catalyzed [3 + 2] Huisgen cycloaddition with dipolarophiles, the strained-promoted alkyne-azide cycloaddition (SPAAC) with strained alkynes and the Staudinger-Bertozzi ligation. 10,11 While the [3 + 2] Huisgen cycloaddition and its catalyzed version are not completely compatible with AuNPs chemistry because the high temperature or the Cu(I) required to push the reaction to completion cause severe nanoparticle aggregation, 12 the SPAAC reaction presents limited chemoselectivity due to the possibility of nucleophilic attacks (especially from thiols and amines largely present in biomolecules) to the highly reactive strained triple bond. [13][14][15] A recent work of ours highlighted this issue showing how post assembly deprotection of peptides once "clicked" on the AuNP surface was necessary to efficiently synthesize a nanoparticle bioconjugate through the SPAAC reaction.…”

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confidence: 99%

Small gold nanoparticles for interfacial Staudinger–Bertozzi ligation

et al. 2015

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Small gold nanoparticles (AuNPs) that possess interfacial methyl-2-(diphenylphosphino)benzoate moieties have been successfully synthesized (Staudinger-AuNPs) and characterized by multi-nuclear MR spectroscopy, transmission electron microscopy (TEM), UV-Vis spectroscopy, thermogravimetric analysis, and X-ray photoelectron spectroscopy (XPS). In particular, XPS was remarkably sensitive for characterization of the novel nanomaterial, and in furnishing proof of its interfacial reactivity. These Staudinger-AuNPs were found to be stable to the oxidation of the phosphine center. The reaction with benzyl azide in a Staudinger-Bertozzi ligation, as a model system, was investigated using (31)P NMR spectroscopy. This demonstrated that the interfacial reaction was clean and quantitative. To showcase the potential utility of these Staudinger-AuNPs in bioorganic chemistry, a AuNP bioconjugate was prepared by reacting the Staudinger-AuNPs with a novel azide-labeled CRGDK peptide. The CRGDK peptide could be covalently attached to the AuNP efficiently, chemoselectively, and with a high loading.

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confidence: 99%

Small gold nanoparticles for interfacial Staudinger–Bertozzi ligation

et al. 2015

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“…Independent on the variant of the Staudinger ligation (traceless or nontraceless), functionalized phosphanes act as starting material in general [6][7][8]. Furthermore, the traceless ligation can be divided in two approaches.…”

Section: Synthesis and X-ray Determinationmentioning

confidence: 99%

“…CONCLUSION X-ray structure determinations of the starting phosphanes and kinetic measurements of the reaction rate between fluorinated phosphane and various azides were accomplished under different reaction conditions to transfer and apply the traceless Staudinger ligation for future radiolabeling with short-lived β + -emitter fluorine-18 and other radionuclides. For this purpose, 19 F NMR was used due to the presence of 19 F in the starting material (phosphane 3) as well as in the corresponding products (7)(8)(9). The results of the measurements clearly indicate that it is possible to apply the traceless Staudinger ligation for radiolabeling purposes even in consideration of the short half-live of fluorine-18 under mild labeling conditions with a rather slow reaction rate.…”

Section: Determination Of K Obs Via 19 F Nmrmentioning

confidence: 99%

“…The absence of a metal catalyst (e.g., Cu) is important especially for in vitro and in vivo applications, because Cu is known to be cytotoxic [5]. Therefore, the traceless variant of the Staudinger ligation [6][7][8] independently developed by Raines et al [9] and Bertozzi et al [10] is employed for several applications in chemistry, biochemistry, and (radio)pharmacy. The connection of proteins [11,12], peptides, and peptide fragments [9,13], the glycosylation [14] of amino acids and peptides [15,16], the preparation of large-sized lactams [17,18], the functionalization of polymers [19], and the introduction of radiolabels [20][21][22][23] as well as fluorescence dyes [24][25][26] makes this reaction widely applicable.…”

Section: Introductionmentioning

confidence: 99%

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Structural and Kinetic Considerations for the Application of the Traceless Staudinger Ligation to Future ¹⁸F Radiolabeling Using XRD and ¹⁹F NMR

Köckerling

Mamat

2017

Int J of Chemical Kinetics

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A 4-fluorobenzoate-functionalized phosphane was synthesized and reacted with different azides using the traceless Staudinger ligation as a representative sample reaction for future radiolabeling purposes with short-lived radionuclides like fluorine-18. For this purpose, the reaction rate was evaluated at different temperatures. The effect of starting material concentrations and the influence of the steric effect coming from the applied azides were investigated. 19 F NMR was used to determine the reaction half-live (τ 1/2 ) and the reaction rate constant (k obs ) of this ligation under mild reaction conditions in a water-acetonitrile mixture. Furthermore, the phosphane key compound 1 (orthorhombic, space group Pna2 1 , a = 18.6363(9), b = 8.3589(4), c = 18.5480(9)Å, V = 2889.4(2)Å 3 , Z = 8, D obs = 1.277 g/cm 3 ), which acts as starting material for all subsequent syntheses, and the fluorine-containing phosphane 3 (monoclinic, space group P2 1 /c, a = 8.321(2), b = 16.160(4), c = 14.940(4)Å, β = 99.51(1)°, V = 1981.4(8)Å 3 , Z = 4, D obs = 1.342 g/cm 3 ) were analyzed by single-crystal XRD.

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“…21 We have recently shown that the isonitrile group can also be used as a novel chemical reporter group for glycan metabolic labelling. 22 Azides incorporated in cell surface glycoproteins can be detected using either the Staudinger ligation, 23 the copper catalysed [3 + 2] cycloaddition with alkynes (with biologically compatible catalysts) 24 or the copper-free [3 + 2] cycloaddition with strained cyclooctynes. 25 Cyclopropenes and alkenes, on the other hand, can react with tetrazines.…”

Section: Introductionmentioning

confidence: 99%