Multi-Joint Coordination During Walking and Foothold Searching in the Blaberus Cockroach. II. Extensor Motor Neuron Pattern

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Multi-Joint Coordination During Walking and Foothold Searching in the Blaberus Cockroach. II. Extensor Motor Neuron Pattern

Andrew K. Tryba and Roy E. Ritzmann

Department of Biology, Case Western Reserve University, Cleveland, Ohio 44106-7080

Tryba, Andrew K. and Roy E. Ritzmann. Multi-Joint Coordination During Walking and Foothold Searching in the Blaberus Cockroach. II. Extensor Motor Neuron Pattern. J. Neurophysiol. 83: 3337-3350, 2000. In a previous study, we combined joint kinematics and electromyograms (EMGs) to examine the change in the phase relationshipof two principal leg joints during walking and searching. In thisstudy, we recorded intracellularly from motor neurons in semi-intactbehaving animals to examine mechanisms coordinating extensionat these leg joints. In particular, we examined the change inthe phase of the coxa-trochanter (CTr) and femur-tibia (FT) jointextension during walking and searching. In doing so, we discoveredmarked similarities in the activity of CTr and FT joint extensormotor neurons at the onset of extension during searching and atthe end of stance during walking. The data suggest that the sameinterneurons may be involved in coordinating the CTr and FT extensormotor neurons during walking and searching. Previous studies instick insects have suggested that extensor motor neuron activityduring the stance phase of walking results from an increase intonic excitation of the neuron leading to spiking that is periodicallyinterrupted by centrally generated inhibition. However, the CTrand FT extensor motor neuron activity during walking consistsof characteristic phasic modulations in motor neuron frequencywithin each step cycle. The phasic increases and decreases inextensor EMG frequency during stance are associated with kinematicevents (i.e., foot set-down and joint cycle transitions) duringwalking. Sensory feedback associated with these events might beresponsible for phasic modulation of the extensor motor neuronfrequency. However, our data rule out the possibility that sensorycues resulting from foot set-down are responsible for a declinein CTr extensor activity that is characteristic of the Blaberusstep cycle. Our data also suggest that both phasic excitationand inhibition contribute to extensor motor neuron activity duringthe stance phase ofwalking.

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