Protocell Dynamics: Modelling Growth and Division of Lipid Vesicles Driven by an Autocatalytic Reaction
Japraj Taneja, Paul G. Higgs

TL;DR
This paper models how protocells grow and divide using an autocatalytic reaction inside lipid vesicles, showing how metabolism affects cell dynamics.
Contribution
The study introduces a computational model linking autocatalytic reactions to lipid vesicle growth and division dynamics.
Findings
Protocells reach homeostasis or collapse if they do not divide.
Division is energetically favorable when lipid flip rate is slow.
Active protocells can grow and divide under conditions where inactive ones cannot.
Abstract
We study a computational model of a protocell, in which an autocatalytic reaction sustains itself inside a lipid vesicle. The autocatalytic reaction drives volume growth via osmosis. Membrane area grows due to addition of lipids from the environment. The membrane growth rate depends on the external lipid concentration and on the tension in the membrane. In the absence of division, a cell either reaches a state of homeostasis or grows to a point where the internal reaction collapses. If a cell becomes elongated, it can divide into two smaller spherical vesicles, conserving the total volume and area. We determine when it is energetically favorable for a large vesicle to divide. Division requires the buildup of a difference between the lipid areas on the outer and inner leaflets of the membrane. Division occurs most easily when the rate of flipping of lipids between leaflets is relatively…
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Taxonomy
TopicsOrigins and Evolution of Life · Lipid Membrane Structure and Behavior · Photoreceptor and optogenetics research
