AI Article Synopsis
- * The changes in these thermodynamic variables sync up with the activity of metabolites inside the cells, indicating a strong relationship between them.
- * Our findings suggest that these oscillations might help living cells maintain a stable, low-entropy state while still engaging in biochemical transformations, challenging the idea that metabolic processes are merely wasteful.
Article Abstract
We measured temporal oscillations in thermodynamic variables such as temperature, heat flux, and cellular volume in suspensions of non-dividing yeast cells which exhibit temporal glycolytic oscillations. Oscillations in these variables have the same frequency as oscillations in the activity of intracellular metabolites, suggesting strong coupling between them. These results can be interpreted in light of a recently proposed theoretical formalism in which isentropic thermodynamic systems can display coupled oscillations in all extensive and intensive variables, reminiscent of adiabatic waves. This interpretation suggests that oscillations may be a consequence of the requirement of living cells for a constant low-entropy state while simultaneously performing biochemical transformations, i.e., remaining metabolically active. This hypothesis, which is in line with the view of the cellular interior as a highly structured and near equilibrium system where energy inputs can be low and sustain regular oscillatory regimes, calls into question the notion that metabolic processes are essentially dissipative.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6082799 | PMC |
| http://dx.doi.org/10.1007/s10867-018-9499-2 | DOI Listing |
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