Jennifer J. L. Hodas scite author profile

Protein translation has been implicated in different forms of synaptic plasticity but direct in situ visualization of new proteins is limited to one or two proteins at a time. Here we describe a metabolic labeling approach based upon incorporation of non-canonical amino acids into proteins followed by chemo–selective fluorescent tagging via click chemistry. Following brief incubation with azidohomoalanine or homopropargylglycine, a robust fluorescent signal was detected in somata and dendrites. Pulse–chase–like application of azidohomoalanine and homopropargylglycine allowed visualization of proteins synthesized in two sequential time periods. This technique can be used to detect changes in protein synthesis and to evaluate the fate of proteins synthesized in different cellular compartments. Moreover, using strain–promoted cycloaddition, we explored the dynamics of newly synthesized membrane proteins using single particle tracking and quantum dots. The newly synthesized proteins exhibited a broad range of diffusive behaviors as expected if the pool of labeled proteins was heterogeneous.

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Cleavable Biotin Probes for Labeling of Biomolecules via Azide−Alkyne Cycloaddition

Szychowski

et al. 2010

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The azide-alkyne cycloaddition provides a powerful tool for bio-orthogonal labeling of proteins, nucleic acids, glycans, and lipids. In some labeling experiments, e.g., in proteomic studies involving affinity purification and mass spectrometry, it is convenient to use cleavable probes that allow release of labeled biomolecules under mild conditions. Five cleavable biotin probes are described for use in labeling of proteins and other biomolecules via the azide -alkyne cycloaddition. Subsequent to conjugation with metabolically labeled protein, these probes are subject to cleavage with either 50 mM Na 2 S 2 O 4 , 2% HOCH 2 CH 2 SH, 10% HCO 2 H, 95% CF 3 CO 2 H, or irradiation at 365 nm. Most strikingly, a probe constructed around a dialkoxydiphenylsilane (DADPS) linker was found to be cleaved efficiently when treated with 10% HCO 2 H for 0.5 h. A model GFP protein was used to demonstrate that the DADPS probe undergoes highly selective conjugation and leaves a small (143 Da) mass tag on the labeled protein after cleavage. These features make the DADPS probe especially attractive for use in biomolecular labeling and proteomic studies.

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Dopaminergic modulation of the hippocampal neuropil proteome identified by bioorthogonal noncanonical amino acid tagging (BONCAT)

et al. 2012

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Local protein synthesis and its activity-dependent modulation via dopamine receptor stimulation play an important role in synaptic plasticity - allowing synapses to respond dynamically to changes in their activity patterns. We describe here the metabolic labeling, enrichment and mass spectrometry-based identification of candidate proteins specifically translated in intact hippocampal neuropil sections upon treatment with the selective D1/D5 receptor agonist SKF81297. Using the non-canonical amino acid azidohomoalanine and click chemistry we identified over 300 newly synthesized proteins specific to dendrites and axons. Candidates specific for the SKF81297-treated samples were predominantly involved in protein synthesis and synapse-specific functions. Furthermore, we demonstrate a dendrite-specific increase in proteins synthesis upon application of SKF81297. This study provides the first snapshot in the dynamics of the dopaminergic hippocampal neuropil proteome.

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