Co-IP describes the immunoprecipitation of a protein of interest and its interacting partners.

Pull-down of proteins with Nano-Traps

ChromoTek Myc-Trap® is an optimized tool for immunoprecipitation (IP/Co-IP)

An overview of the immunoprecipitation (IP) application.

Step by step immunoprecipitation workflow with buffer optimization tips.

A slideshow overview of our IP technical guide.

For a successful IP, the abundance or expression level of the POI is crucial. If a POI is strongly expressed and highly abundant, then the IP will most likely be straightforward, with no difficulties.

What is antibody specificity and affinity? And why is it important for immunoprecipitation?

In detail, all beads have very low background binding due to the highly specific binding of the Nano-Traps.

Comparison of GFP-Trap and anti-GFP IgG antibody

Co-immunoprecipitation (Co-IP) describes the isolation of a protein and its binding partners from a cell extract using a Nanobody or antibody that is bound to beads. The protein, that directly interacts with the Nanobody, or antibody beads is called “bait”. The binding partner that is indirectly precipitated is called “prey”.

8 tips on how to perform better IP experiments.

Save hours on your immunoprecipitation (IP) experiments

GFP-Trap Agarose, GFP-Trap Magnetic Agarose,GFP-Trap Magnetic Particles M-270, GFP-Trap 96 Multiwell Plate

Follow the on-bead digestion protocol for effective mass spectrometry analysis of (co-) precipitated proteins

Immunoprecipitation tips including binding proteins and beads and tips on choosing the right primary antibody for IP.

Troubleshooting tips and solutions for common IP problems.

A detailed 4 day step by step protocol for Chromatin Immunoprecipitation (ChIP) to help you achieve optimal results.

The high stability of the GFP-Trap® enables its use in virtually any lysis and wash buffer.

Publications using ChromoTek's GST-Trap in various applications

Tips and tricks for better IP results with GFP-Trap

Why GFP-Trap gives the best immunoprecipitation (IP) results

Novel tools for the analysis of mNeonGreen fusion proteins

The Alpaca antibody advantage for pull-down of Myc-tagged proteins

Learn the importance of antibody titration in order to determine the optimal signal-to-noise ratio in IP.

Tips and tricks

Learn about the best sample preparation and lysis buffer for your IP experiments.

The Spot Nanobody for multiple capture & detection applications of Spot-tagged proteins

Our Sales Rep answers one of the most frequent customer questions

ChromoTek’s Fab-Trap™ is an IP reagent based on an antibody Fab-fragment.

Flag®-tag (or DYKDDDDK-tag) is a commonly used short peptide tag for multiple applications such as immunoprecipitation (IP), protein purification, immunofluorescence, and Western blotting (WB).

Overview about specifications, properties, origin, sequence, size, specifications, etc. of Flag-tag

References from the last 4 years in virus research using GFP and ChromoTek's GFP-Trap

ChromoTek’s Spot-Tag system for universal capture & detection applications such as immunofluorescence, immunoprecipitation, and protein purification

iST Nano-Trap kits simplify immunoprecipitation/Co-immunoprecipitation and preparation of samples for mass spectrometry-based proteomics.

Immunoprecipitation of Protein Complexes from Drosophila Embryos with GFP-Trap

V5-Tag: Properties, origin, specifications, antibodies & Nanobodies

When time in the lab is limited, learn how to save precious hours on your IP, IF, and western blotting experiments.

RFP-Trap for ChIP analysis in order to detect enrichment of mCherry-tagged proteins at DNA binding sites

Combined use of ChromoTek's GFP-Trap for immunoprecipitation and PreOmics iST sample preparation kit for reproducible identification of proteins and interaction partners.

Myc-tag is a peptide tag derived from the c-Myc protein. The Myc-tag can be used for many capture and detection applications such as immunoprecipitation, immunofluorescence and protein purification.

GFP or RFP and their derivatives are commonly used for virus research

Types of fluorescent protein tags and comparisons