Biotinylation has been extensively used for antibody tagging, affinity-based purification, and in protein/DNA-protein interaction studies. Here we describe the use of biotinylation to study the turn-over of proteins in cells. We use the prokaryotic biotin ligase (BirA) to biotinylate the human leukocyte antigen (HLA)-A2 (A2) heavy chain (HC), which was engineered to contain a biotin acceptor peptide (BAP). Controlled availability of biotin in combination with visualization using streptavidin-conjugated peroxidase made it possible to detect biotinylated BAP-A2. Further, we exploited the effects of human cytomegalovirus (HCMV) unique short (US) proteins US2 and US11 on the turn-over of BAP-A2 HC. The full-length BAP-A2 HC and its mutants lacking either the cytosolic tail (tail-less) or both the transmembrane and cytosolic regions (soluble) were expressed via recombinant adenoviruses (rAd). The effect of US2, US11 and a control HCMV protein US9, also expressed via rAd, on each of the BAP- A2 forms was assessed. Experiments using this system showed that US2 and US11 cause proteasome-mediated degradation of full-length BAP-A2 HC but only US2 could cause degradation of tail-less BAP-A2. The results demonstrate that the technique of biotinylation can be used to study protein turn-over in cells.
Keywords: BAP tagging; Biotinylation; HCMV; MHC; Protein turn-over.
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