Background: Many biomedical applications require the expression or production of therapeutic hetero-multimeric proteins/protein complexes: in most cases only accomplished by co-ordinated co-expression within the same cell. Foot-and-mouth disease virus 2A (F2A) and '2A-like' sequences are now widely used for this purpose. Since 2A mediates a co-translational 'cleavage' at its own C-terminus, sequences encoding multiple proteins (linked via 2As) can be concatenated into a single ORF: a single transgene. It has been shown that in some cases, however, the cleavage efficiency of shorter versions of F2A may be inhibited by the C-terminus of certain gene sequences immediately upstream of F2A. This paper describes further work to optimise F2A for co-expression strategies.
Results: We have inserted F2A of various lengths in between GFP and CherryFP 'reporter' proteins (in reciprocal or tandem arrangements). The co-expression of these proteins and cleavage efficiencies of F2As of various lengths were studied by in vitro coupled transcription and translation in rabbit reticulocyte lysates, western blotting of HeLa cell lysates and fluorescence microscopy.
Conclusions: Optimal and suboptimal lengths of F2A sequences were identified as a result of detailed 'fine-tuning' of the F2A sequence. Based on our data and the model according to which 2A activity is a product of its interaction with the exit tunnel of the ribosome, we suggest the length of the F2A sequence which is not 'sensitive' to the C-terminus of the upstream protein that can be successfully used for co-expression of two proteins for biomedical applications.