Cytoplasmic delivery and selective, multicomponent labeling with oligoarginine-linked protein tags.

Strategies that leverage bio-orthogonal interactions between small molecule ligands and genetically encoded amino acid sequences can be used to attach high-performance fluorophores to proteins in living cells. However, a major limitation of chemical protein labeling is that cells’ plasma membranes are impermeable to many useful probes and biolabels. Here, we show that conjugation to nonaarginine, a cell penetrating peptide (CPP), enables passive cytoplasmic delivery of otherwise membrane-impermeant, small molecule protein labels. Heterodimers consisting of a luminescent Tb3+ complex, Lumi4, linked to benzyl guanine, benzyl cytosine, and trimethoprim were conjugated to the peptide CysArg9 with a reducible disulfide linker. When added to culture medium, the peptide conjugates rapidly (<30 min) enter the cytoplasm and diffuse freely throughout cells. The benzyl guanine, benzyl cytosine, and trimethoprim derivatives bind selectively to fusion proteins tagged with SNAP-Tag, CLIP-Tag, and Escherichia coli dihyd...