Jellyfish Green Fluorescent Protein (GFP) and its derivatives are still the most frequently used fluorescent proteins in biomedical research. Recently, additional green fluorescent proteins have been discovered in higher animals such as crustaceans and lancelets. These FPs share a common fold, but diverge widely in their primary sequence. Thus, they require novel, dedicated antibody research tools. Here is an overview about EGFP (the most commonly used GFP derivative), TurboGFP and mNeonGreen.
Working with green fluorescent proteins: Tools and properties
Topics: Nanobody, mNeonGreen, mNeonGreen immunoprecipitation, GFP, GFP Immunoprecipitation, TurboGFP, TurboGFP immunoprecipitation, EGFP
mNeonGreen: A green fluorescent protein that is not a GFP variant
Recently a new bright monomeric yellow-green fluorescent protein has been published, which is called mNeonGreen. This protein has already been frequently used for mainly microscopic applications in both wide-field microscopy and super resolution microscopy. What is mNeonGreen all about?
Topics: mNeonGreen, mNeonGreen Antibody, mNeonGreen Western blot, mNeonGreen VHH, mNeonGreen immunoprecipitation, mNeonGreen immunofluorescence, GFP, mNeonGreen sequence
New anti-mNeonGreen antibody & Nano-Trap for Immunofluorescence & Immunoprecipitation
ChromoTek is proud to introduce new tools for mNeonGreen fusion proteins:
- anti-mNeonGreen mouse monoclonal antibody 32F6 for immunofluorescence (IF)
- mNeonGreen-Trap for immunoprecipitation (IP) of mNeonGreen fusion proteins. The mNeonGreen-Trap is based on an anti-mNeonGreen VHH (mNeonGreen binding protein)
Click here and request a free sample:
Topics: mNeonGreen, mNeonGreen Antibody, mNeonGreen VHH, mNeonGreen-Trap, mNeonGreen immunoprecipitation, mNeonGreen immunofluorescence