Litcius/Paper detail

Intracellular Heat Transfer and Thermal Property Revealed by Kilohertz Temperature Imaging with a Genetically Encoded Nanothermometer

Kai Lu, Tetsuichi Wazawa, Joe Sakamoto, Cong Quang Vu, Masahiro Nakano, Yasuhiro Kamei, Takeharu Nagai

2022Nano Letters45 citationsDOIOpen Access PDF

Abstract

Despite improved sensitivity of nanothermometers, direct observation of heat transport inside single cells has remained challenging for the lack of high-speed temperature imaging techniques. Here, we identified insufficient temperature resolution under short signal integration time and slow sensor kinetics as two major bottlenecks. To overcome the limitations, we developed B-gTEMP, a nanothermometer based on the tandem fusion of mNeonGreen and tdTomato fluorescent proteins. We visualized the propagation of heat inside intracellular space by tracking the temporal variation of local temperature at a time resolution of 155 μs and a temperature resolution 0.042 °C. By comparing the fast in situ temperature dynamics with computer-simulated heat diffusion, we estimated the thermal diffusivity of live HeLa cells. The present thermal diffusivity in cells was about 1/5.3 of that of water and much smaller than the values reported for bulk tissues, which may account for observations of heterogeneous intracellular temperature distributions.

Topics & Concepts

Thermal diffusivityIntracellularMaterials scienceHeat transferThermalTemporal resolutionTemperature measurementKineticsBiological systemTracking (education)BiophysicsDiffusionChemical physicsAnalytical Chemistry (journal)ChemistryThermodynamicsOpticsPhysicsBiologyChromatographyPsychologyPedagogyQuantum mechanicsBiochemistrythermodynamics and calorimetric analysesThermal Radiation and Cooling TechnologiesPhysiological and biochemical adaptations