Fluorescence imaging using a fluorescent protein with a large Stokes shift

Keima is a far-red fluorescent protein endowed with a large Stokes shift. It absorbs light maximally at around 440 nm and emits maximally at around 620 nm. While the original Keima is obligately tetrameric (tKeima), the dimeric and monomeric versions (mKeima and dKeima, respectively) have been generated. More recently, a tandem dimer of Keima (tdKeima) has been developed as the brightest version. Here we describe examples, which show the usefulness of Keima for dual-color fluorescence imaging technologies, such as fluorescence cross-correlation spectroscopy (FCCS) and two-photon laser scanning microscopy (TPLSM). Keima can be used in conjunction with existing fluorescent proteins in which the Stokes shift is much smaller, with the idea that while two fluorescent proteins are excited by a single laser each will fluoresce a different color.