The introduction of green and red fluorescent proteins has revolutionized gene expression studies. For applications involving highly pigmented or dense tissue, these proteins have certain shortcomings, such as interference from cellular auto fluorescence. Although used extensively in FRET systems, their usefulness measuring protein-protein interactions is limited to distances of angstroms. Initial attempts to generate fluorescent proteins (from cyanobacteria) that fluoresce at longer wavelengths did not result in constructs that could be easily expressed in mammalian cells. The addition of proteins that overcome these limitations and fluoresce in the infrared or generate singlet oxygen to aid in the investigation of protein-protein interactions over greater distances would provide an exciting addition to the fluorescent protein tool box available to the research community.
Dr. Roger Tsien recently developed a new family of fluorescent proteins that emit infrared light. Unrelated both genetically and structurally to GFPs and RFPs, these variants are dimeric in nature but have been monomerized and have been developed from a single bacterial species. The proteins represent truncated variants of the full-length proteins, which do not exhibit infrared fluorescence. When the truncated protein is loaded with specific co-factors, they have the ability to fluoresce in the infrared or generate singlet oxygen without the addition of exogenous small molecules. The co-factors necessary for IR emission or singlet oxygen generation are available in most cell types and bind spontaneously. This is an ongoing project and new variants continue to be developed and tested.
Country | Type | Number | Dated | Case |
United States Of America | Issued Patent | 8,653,037 | 02/18/2014 | 2008-303 |
protein, Singlet Oxygen