# Spatial Scales of Living Cells, their Energetic and Informational   Capacity and the Origin of the Arrow of Time

**Authors:** Edward Bormashenko, Alexander Voronel

arXiv: 1705.04184 · 2017-05-12

## TL;DR

This paper explores how physical and biological constraints determine the size of living cells, linking their dimensions to thermodynamics, informational capacity, and the origin of the arrow of time.

## Contribution

It provides a comprehensive analysis of the physical limits on cell size and connects these limits to the emergence of biological irreversibility and the arrow of time.

## Key findings

- Cells are confined to 1-100 micrometers due to thermodynamic and mechanical constraints.
- The size of cells influences their ability to resist gravity and inertia forces.
- The macroscopic size of cells contributes to the irreversibility of biological processes.

## Abstract

Physical thermodynamic and kinetic, chemical and biological reasoning restrict the spatial dimensions of living cells and confine them to between one and one hundred micrometers. Cells should necessarily be macroscopic, dissipative objects, resisting thermal fluctuations and providing sufficient informational capacity. The upper limit of spatial dimensions of cells is supplied by their ability to withstand gravity and inertia forces under reasonable deformations. The upper limit of cell dimensions is also governed by the hierarchy of characteristic time scales, inherent for mass and heat transport. For micron-scaled cells, the traffic time (namely a typical time necessary for the migration of one enzyme to another) is on the order of magnitude of a millisecond, which coincides with the characteristic time scale of a single round of the catalytic enzyme cycle. Among other important consequences the macroscopic dimensions of living cells seen as dissipative systems) give rise to the irreversibility of biological processes, demonstrating the arrow of time.

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Source: https://tomesphere.com/paper/1705.04184