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Review
. 2012 May 7;279(1734):1665-74.
doi: 10.1098/rspb.2011.2629. Epub 2012 Feb 1.

The limits of brain determinacy

Peter G H Clarke  1
Affiliations
Review

The limits of brain determinacy

Peter G H Clarke. Proc Biol Sci. .

Abstract

The genes do not control everything that happens in a cell or an organism, because thermally induced molecular movements and conformation changes are beyond genetic control. The importance of uncontrolled events has been argued from the differences between isogenic organisms reared in virtually identical environments, but these might alternatively be attributed to subtle, undetected differences in the environment. The present review focuses on the uncontrolled events themselves in the context of the developing brain. These are considered at cellular and circuit levels because even if cellular physiology was perfectly controlled by the genes (which it is not), the interactions between different cells might still be uncoordinated. A further complication is that the brain contains mechanisms that buffer noise and others that amplify it. The final resultant of the battle between these contrary mechanisms is that developmental stochasticity is sufficiently low to make neurobehavioural defects uncommon, but a chance component of neural development remains. Thus, our brains and behaviour are not entirely determined by a combination of genes-plus-environment.

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Figures

Figure 1.
Figure 1.
Origins and spread of stochasticity during the development and functioning of the nervous system. Stochasticity arises mainly or entirely from thermally induced molecular movements and conformation changes, and from incoordination between different intercellular events (left side of figure). The stochasticity spreads to various cellular and neural events (right side of figure).
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