Spatial distribution of synapses onto thoracic motor neurones in locusts.

Aggregates of synaptic vesicles, stained black by the zinc iodideosmium procedure, can be visualised with the light microscope in 1 mum plastic sections. This allows the main branches of a neurone to be reconstructed relatively rapidly and the associated vesicle aggregates to be plotted. By resectioning, the identity of the vesicle aggregates has been confirmed with the electron microscope. Two flight motor neurones in the mesothoracic ganglion of the locust have been examined. One is identified as a dorsal longitudinal muscle motor neurone (muscle 112) and the other is probably a subalar neurone (muscle 99). Both have a large density of vesicle aggregates on the neuropilar segment, the widest part of the main neuronal axis, but few on the neurite within 250 mum of the cell body. The larger branches arising from the neuropilar segment tend to have a lower density of aggregates than fine branches, which suggests that synapses to the branches may occur mainly on the distal twigs. These results are an important preliminary step in determining the integrative functions of such neurons and have immediate implications in the interpretation of microelectrode recordings.