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Incomplete proteasomal degradation of green fluorescent proteins in the context of tandem fluorescent protein timers.


ABSTRACT: Tandem fluorescent protein timers (tFTs) report on protein age through time-dependent change in color, which can be exploited to study protein turnover and trafficking. Each tFT, composed of two fluorescent proteins (FPs) that differ in maturation kinetics, is suited to follow protein dynamics within a specific time range determined by the maturation rates of both FPs. So far, tFTs have been constructed by combining slower-maturing red fluorescent proteins (redFPs) with the faster-maturing superfolder green fluorescent protein (sfGFP). Toward a comprehensive characterization of tFTs, we compare here tFTs composed of different faster-maturing green fluorescent proteins (greenFPs) while keeping the slower-maturing redFP constant (mCherry). Our results indicate that the greenFP maturation kinetics influences the time range of a tFT. Moreover, we observe that commonly used greenFPs can partially withstand proteasomal degradation due to the stability of the FP fold, which results in accumulation of tFT fragments in the cell. Depending on the order of FPs in the timer, incomplete proteasomal degradation either shifts the time range of the tFT toward slower time scales or precludes its use for measurements of protein turnover. We identify greenFPs that are efficiently degraded by the proteasome and provide simple guidelines for the design of new tFTs.

SUBMITTER: Khmelinskii A 

PROVIDER: S-EPMC4713137 | biostudies-literature | 2016 Jan

REPOSITORIES: biostudies-literature

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Incomplete proteasomal degradation of green fluorescent proteins in the context of tandem fluorescent protein timers.

Khmelinskii Anton A   Meurer Matthias M   Ho Chi-Ting CT   Besenbeck Birgit B   Füller Julia J   Lemberg Marius K MK   Bukau Bernd B   Mogk Axel A   Knop Michael M  

Molecular biology of the cell 20151125 2


Tandem fluorescent protein timers (tFTs) report on protein age through time-dependent change in color, which can be exploited to study protein turnover and trafficking. Each tFT, composed of two fluorescent proteins (FPs) that differ in maturation kinetics, is suited to follow protein dynamics within a specific time range determined by the maturation rates of both FPs. So far, tFTs have been constructed by combining slower-maturing red fluorescent proteins (redFPs) with the faster-maturing super  ...[more]

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