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Motor responses to paired stimulation of giant interneurons in the cockroachPeriplaneta americana (1981)

Ritzmann, Roy E. ; Pollack, Alan J.

Springer

Journal of comparative physiology 143 (1981), S. 61-70

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. Dorsal giant interneurons (GIs) of the cockroach were stimulated intracellularly alone and in pairs, while activity in levator and depressor motor neurons of one metathoracic leg was recorded extracellularly. 2. Paired stimulation of GI-6 (which excites primarily levators) and ipsilateral GI-7 (which excites both levators and depressors) resulted in a stronger levator response than that recorded when either GI was stimulated alone (Figs. 3, 4). 3. Paired stimulation of GI-5 (which excites primarily depressors) and ipsilateral GI-7 resulted in a stronger depressor response than that recorded when either GI was stimulated alone (Fig. 7). 4. Paired stimulation of GI-5 exciting depressors and ipsilateral GI-6 exciting levators resulted in increased activity in either levators or depressors, depending on the individual animal. The muscle group whose activity increased was constant in any given preparation but varied from animal to animal (Fig. 9). 5. Delayed stimulation of one GI in paired trials uncovered no inhibition during the first part of the GI stimulus train (Fig. 10). 6. Contralateral dorsal GIs and non-giant interneurons can also sum with dorsal GIs to elicit stronger motor outputs (Fig. 11).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00606069

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Flight activity mediated by intracellular stimulation of dorsal giant interneurons of the cockroachPeriplaneta americana (1982)

Ritzmann, Roy E. ; Pollack, Alan J. ; Tobias, Martha L.

Springer

Journal of comparative physiology 147 (1982), S. 313-322

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. Flight activity can be initiated in legless cockroaches by stimulating a single dorsal giant interneuron (dGI) intracellularly with a train of current pulses. Ventral giant interneurons (vGIs) do not initiate flight activity. 2. The initial directional responses in leg motor neurons which are characteristic of running are still evoked prior to flight initiation. 3. For short flights the number of bursts in wing muscles (flight bursts) increases as the number of action potentials in the dGI is increased. 4. Paired stimulation of dGIs evokes longer flight sequences. Moreover, a subthreshold train of action potentials in a single dGI can evoke flight if the train arrives within 500 ms of a previous flight. 5. In flight motor neurons (FMNs), an initial depolarization precedes rhythmic oscillations that are associated with flight bursts. The timing of dGI activity is appropriate for eliciting the initial depolarization as well as the rhythmic oscillations. Stimulation of single dGIs with trains of current pulses evokes both phases of the FMN response, probably via polysynaptic pathways. 6. Activity in the intracellularly stimulated dGI need not reach the mesothoracic ganglion directly in order to evoke coordinated flight activity in both the meso- and metathoracic ganglia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00609665

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Identification of thoracic interneurons that mediate giant interneuron-to-motor pathways in the cockroach (1986)

Ritzmann, Roy E. ; Pollack, Alan J.

Springer

Journal of comparative physiology 159 (1986), S. 639-654

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. Paired intracellular recordings were made to identify thoracic interneurons that receive stable short latency excitation from giant interneurons (GIs). 2. Eight metathoracic interneurons were identified in which EPSPs were correlated with GI activity which was evoked either by wind or intracellular electrical stimulation or occurred spontaneously. In all cases EPSPs in the thoracic interneurons followed GI action potentials faithfully at short latencies. 3. EPSPs associated with GI action potentials consistently represented the upper range of amplitudes of a large sample of EPSPs recorded in the thoracic interneurons. 4. Seven of the interneurons were correlated with activity in ventral GIs but were not correlated with activity in dorsal GIs. Four of these interneurons were part of a discrete population of interneurons whose somata are located in the dorsal posterior region of the ganglion. The eighth interneuron (designated the T cell) was positively correlated with activity in dorsal GIs. 5. The four dorsal posterior group interneurons and the T cell were depolarized intracellularly to establish their potential for generating motor activity. In all cases evoked activity was stronger in leg motor neurons (primarily Ds and the common inhibitor) located on the side contralateral to the interneuron's soma. 6. The results indicate that significant polysynaptic pathways exist by which GI activity can evoke motor activity. The implications of this conclusion to investigations on the cockroach escape system are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00612037

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