, 2002) Therefore, the fusion of a SNAP tag to a protein allows

, 2002). Therefore, the fusion of a SNAP tag to a protein allows for pulse-labeling with fluorescence instead of a radioisotope. In addition, fluorescent timer (FT), a mutant of red fluorescent protein, is initially synthesized as a protein with green fluorescence and gradually matures into a red fluorescent protein. The green-to-red

conversion is spontaneous and very slow; it takes 10 h for half of FT proteins and 50 h for all FT proteins to convert (Terskikh et al., 2000). This spontaneous and slow conversion allows us to monitor the “youth” of FT-fused proteins. PD0325901 mouse Given that the degradation is accelerated, proteins are degraded before turning red and so the green/red ratio should be higher. Thus, the green/red ratio of FT is expected to be useful for detecting the changes in protein degradation. Strongly inwardly rectifying potassium (Kir2.1) channels are tetramers with each subunit having two transmembrane domains, a pore-forming region, and N- and C-terminal cytoplasmic domains (Kubo et al., 1993). Kir2.1 channels are expressed in heart, buy JQ1 kidney, and brain, and play pivotal roles in intrinsic excitability. Their physiological relevance is evident from the severe phenotypes of mutants of Kir2.1. A loss of function mutation of Kir2.1 resulted in Andersen–Tawil syndrome with long QT syndrome, ventricular arrhythmia, and physical

abnormalities of the head, face, and limbs (Andelfinger et al., 2002 and Plaster et al., 2001). Curiously, a gain of function mutation of Kir2.1 also resulted in arrhythmia. Familial atrial fibrillation is linked to a mutation which increases conductance of Kir2.1 (Xia et al.,

2005). The transgenic overexpression of Kir2.1 resulted in a slower heart rate and atrial fibrillation in mice (Li et al., 2004). These findings indicate the importance of accurate regulation of Kir2.1. Recent studies have shown that the channel is degraded through lysosomal pathway (Feliciangeli et al., 2010, Jansen et al., 2008 and Vos and van der Tau-protein kinase Heyden, 2011). Since the lysosomal degradation of Na+ channels is regulated in an activity-dependent way (Paillart et al., 1996), degradation of Kir2.1 might be dependent on the current level. In this report, to investigate the degradation of Kir2.1 with fluorescence, we constructed SNAP-Kir2.1 and FT-Kir2.1. Using these methods, we found that higher expression and larger currents accelerated the degradation of Kir2.1 and usefulness of the fluorescent proteins. To test the hypothesis that the expression of Kir2.1 is regulated by degradation depending on the expression level, we constructed the SNAP-Kir2.1 fusion gene and cloned it downstream of the CMV or SV40 promoters, and expressed them in 293T cells (Fig. 1A). The CMV promoter is more potent than the SV40 promoter in 293T cells.

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