Thermodynamic probes of life
成果类型:
Editorial Material
署名作者:
Roldan, Edgar
署名单位:
Abdus Salam International Centre for Theoretical Physics (ICTP)
刊物名称:
SCIENCE
ISSN/ISSBN:
0036-10000
DOI:
10.1126/science.adn9799
发表日期:
2024-03-01
页码:
952-953
关键词:
oscillations
reveals
摘要:
The biological activity of a living cell is reflected in the dissipation of heat to its surroundings. However, quantifying heat and cellular activity at the nanoscale has been a challenge ( 1 ). The recent development of stochastic thermodynamics ( 2 ) has brought access to measuring the energetics and efficiency of microscopic systems, such as cells, through a combination of stochastic theory and high-resolution experimental techniques. On page 971 of this issue, Di Terlizzi et al. ( 3 ) report a thermodynamic constraint applicable to nonequilibrium, stationary fluctuations and apply it to determining the heat dissipated by living cells at the nanoscale. Their analysis reveals nonuniform heat dissipation along the equatorial cell contour of red blood cells. The approach may lead to more accurate measurements and a deeper understanding of energy efficiency in living matter, from single cells to whole organisms.