Abstract
From birth to adulthood, an animal’s nervous system changes as its body grows and its behaviours mature. However, the extent of circuit remodelling across the connectome is poorly understood. Here, we used serial-section electron microscopy to reconstruct the brain of eight isogenic C. elegans individuals at different ages to learn how an entire wiring diagram changes with maturation. We found that the overall geometry of the nervous system is preserved from birth to adulthood, establishing a constant scaffold upon which synaptic change is built. We observed substantial connectivity differences among individuals that make each brain partly unique. We also observed developmental connectivity changes that are consistent between animals but different among neurons, altering the strengths of existing connections and creating additional connections. Collective synaptic changes alter information processing of the brain. Across maturation, the decision-making circuitry is maintained whereas sensory and motor pathways are substantially remodelled, and the brain becomes progressively more modular and feedforward. These synaptic changes reveal principles that underlie brain maturation.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Minor text changes throughout for clarity. Three supplementary panels were added to show that variability as defined by animals of the same ages supports the conclusions derived from variability defined across maturation. Statistics section was added to methods. Two new videos were added. Additional people were added to acknowledgements and additional funding sources were added.