Bimolecular fluorescence complementation (BiFC) is a method of viewing the association of proteins inside living cells. Hu CD et al. (Mol Cell 2002) solidified this methodology as viable in vivo.

[edit] How it works

The intact Green fluorescent protein (and its variants CFP, YFP, BFP, and RFP) is fluorescent. However, when the fluorescent protein is split into N and C-terminal halves, the molecule does not produce fluorescence. Fusing of each of the two non-fluorescent fragments to two putative interacting partners leads to restoration of fluorescence within a cell by reconstituting the split fluorophore. This fluorescence is detected via fluorescence microscopy, which can be recorded by a mounted camera. The advantage of the BiFC method over other methods of visualizing protein-protein interactions is that it gives an indication of interaction, as well as cellular localization of the complex.

BiFC can be used as an alternative to FRET, or it can complement FRET by its possibility of screening protein-protein interactions and their modulators through combination with other techniques like DERB^[1]. .

[edit] References

• Hu, CD, Grinberg, AV and Kerppola, TK. Visualization of protein interactions in living cells using bimolecular fluorescence complementation (BiFC) analysis. Current Protocols in Cell Biology, 21.3. Wiley Interscience, 2005

• Lu JP, Beatty LK, Pinthus JH. Dual expression recombinase based (DERB) single vector system for high throughput screening and verification of protein interactions in living cells.". Nature Precedings 2008 <http://hdl.handle.net/10101/npre.2008.1550.2>.

This cell biology article is a stub. You can help Wikipedia by expanding it. v • d • e