Genetic Foundations of Neurophysiological and Behavioural Variability Across the Lifespan
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Neurophysiological brain activity underpins cognitive functions and behavioural traits. Here, we sought to establish to what extent individual neurophysiological traits spontaneously expressed in ongoing brain activity are primarily driven by genetic variation. We also investigated whether changes in such neurophysiological features observed across the lifespan are supported by longitudinal changes in cortical gene expression. We studied the heritability of neurophysiological traits from task-free brain activity of monozygotic and dizygotic twins as well as non-related individuals recorded with magnetoencephalography. We found that these traits were more similar between monozygotic twins compared to dizygotic twins, and that these heritable core dynamical properties of brain activity are predominantly influenced by genes involved in neurotransmission processes. These genes are expressed in the cortex along a topographical gradient aligned with the distribution of major cognitive functions and psychological processes. Our data also show that the impact of these genetic determinants on cognitive and psychological traits increases with age. These findings collectively highlight the persistent genetic influence across the lifespan on neurophysiological brain activity that supports individual cognitive and behavioural traits.
