Pulse Chase
Pulse-chase experiments use labeled compounds to follow the dynamics of cellular processes and pathways. Molecules in a cell are continually being synthesized and degraded at various rates. Changes in molecule localizations and expression levels over time, can be detected by first “pulsing” or exposing cells to a labeled compound, then sequentially exposing the cells to the same compound, unlabeled, which is the “chase”. Compounds are commonly labeled with radioisotopes or fluorescent dyes. Turnover can be detected visually by microscopy techniques.
Various protein labeling methods for pulse-chase have specific application potentials. Reporter fluorescence fusion proteins are often used, but they can disrupt the native target protein's complexing behavior, be toxic to the cells, or affect target stability for pulse chase experiments. Fluorescence reporter fusion proteins also cannot be quenched. SNAP-tag® and CLIP-tag™ are useful for multicolor pulse-chase experiments. Sequential labeling with two or more fluorophores is possible. The non-overlapping substrate specificity of SNAP-tag and CLIP-tag permit simultaneous pulse-chase experiments to visualize different generations of two different proteins in one cell, further increasing the potential of the approach (1). Unlike with reporter fluorescence fusion proteins, like GFP, labeling of newly synthesized proteins can also be turned off using available blocking reagents (e.g., SNAP-Cell® Block). For development of pulse-chase techniques in thick tissues or animals (2), TIME-stamp tagging has advantages. Scalable proteomic analysis, detected by mass spectrometry, has been developed using a azidohomoalanine (azhal) label for rapid pulse-chase (3).
SNAP-tag® and SNAP-Cell® are registered trademarks of New England Biolabs, Inc.
CLIP-tag™ is a trademark of New England Biolabs, Inc.
References
Choose Type:
- Cellular Labeling (E9100)
- Cellular Labeling (E9230)
- Cellular Labeling (S9103)
- SNAP-Cell® TMR-Star Cellular Labeling (NEB #S9105)
- Cellular Labeling (S9109)
- Cellular Labeling (S9110)
- Cellular Labeling (S9112)
- Cellular Labeling (S9124)
- Cellular Labeling (S9129)
- Cellular Labeling (S9132)
- Cellular Labeling (S9134)
- Cellular Labeling with SNAP-Surface® Alexa Fluor® 647 (NEB #S9136)
- Cellular Labeling (S9217)
- Cellular Labeling (S9219)
- Cellular Labeling (S9232)
- Cellular Labeling (S9233)
- Cellular Labeling (S9234)
- Cloning of CLIP-tag Fusions in pCLIPf (N9215)
- CoA 488 (S9348)
- Expression of CLIP-tag Fusions (N9215)
- Instructions for Use with ACP Synthase (P9301)
- Instructions for Use with SFP Synthase (P9302)
- Labeling of Proteins in vitro (S9110)
- Labeling of Proteins in vitro (P9302)
- Labeling of Proteins in vitro (S9103)
- Labeling of Proteins in vitro (S9105)
- Labeling of Proteins in vitro (S9106)
- Labeling of Proteins in vitro (S9109)
- Labeling of Proteins in vitro (S9143)
- Labeling of Proteins in vitro (S9217)
- Labeling of Proteins in vitro (S9219)
- Labeling of Proteins in vitro (S9220)
- Labeling of Proteins in vitro (S9232)
- Labeling of Proteins in vitro (S9233)
- Labeling of Proteins in vitro (S9234)
- Labeling of Proteins in vitro (P9301)
- Instructions for Labeling of Proteins in vitro (S9348)
- Labeling of Proteins in Solution (E9230)
- Labeling on the Surface of Cells (S9349)
- Labeling on the Surface of Cells (S9350)
- Labeling Proteins in vitro (S9112)
- Labeling Proteins in vitro (S9124)
- Labeling Proteins in vitro (S9129)
- Labeling Proteins in vitro (S9132)
- Labeling Proteins in vitro (S9134)
- Labeling Proteins in vitro (S9136)
- Use of SNAP-Cell Block with SNAP-Cell Substrates (E9100)
- Use of CLIP-Cell Block with CLIP-Cell Substrates (E9230)
- Use with CLIP-tag substrates (S9220)
- View the video "Fluorescent Labeling of COS-7 Expressing SNAP-tag Fusion Proteins for Live Cell Imaging" in the Journal of Visualized Experiments (JoVE)
- Cellular Labeling (E9120)
- Instructions for Cellular Labeling (E9200)
- Labeling Proteins in vitro (E9120)
- Labeling Proteins in vitro (E9200)
- Cloning of SNAP-tag Fusions in pSNAPf (N9183)
- Cloning of SNAP-tag Fusions in pSNAP-tag(T7)-2 (N9181)
- Expression of SNAP-tag Fusions (N9181)
- Expression of SNAPf Fusions (N9183)
- Labeling of Proteins in vitro (S9349)
- Labeling of Proteins in vitro (S9350)
- Labeling of Proteins in vitro (E9100)
- Use with SNAP-Surface substrates (S9143)
- Use with SNAP-Cell Substrates (S9106)
- Cellular Labeling (S9159)
- Labeling of Proteins in vitro (S9159)
- SNAP-Cell® 647-SiR Cellular Labeling (NEB #S9102)
- Labeling of Proteins in vitro (S9102)
-
SNAP-tag® Technologies: Tools to Study Protein Function
Read about the NEB’s set of protein tools for the specific labeling (SNAP-, CLIP-, ACP- and MCP-tags) of fusion proteins.
- Cellular Imaging & Analysis Brochure
- Comparison of SNAP-tag®/CLIP-tag™ Technologies to GFP
- Labeling with SNAP-tag® Technology Troubleshooting Guide
Feature Articles
Brochures
Selection Tools
Troubleshooting Guides
- Clone and express once, then use with a variety of substrates
- Non-toxic to living cells
- Wide selection of fluorescent substrates
- Highly specific covalent labeling
- Simultaneous dual labeling
- Simultaneous dual protein labeling inside live cells
- Protein localization and translocation
- Pulse-chase experiments
- Receptor internalization studies
- Selective cell surface labeling
- Protein pull-down assays
- Protein detection in SDS-PAGE
- Flow cytometry
- High throughput binding assays in microtiter plates
- Biosensor interaction experiments
- FRET-based binding assays
- Single molecule labeling
- Super-resolution microscopy
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This product is intended for research purposes only. This product is not intended to be used for therapeutic or diagnostic purposes in humans or animals.
