490. Pinato G and Midtgaard J. (2003) Regulation of granule cell excitability by a low-threshold calcium spike in turtle olfactory bulb. J Neurophysiol 90:3341-51.

NeuronCompartmentPropertyConnectivityNotes
Olfactory bulb main interneuron granule MC cellMiddle equivalent dendriteI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).
Olfactory bulb main interneuron granule MC cellProximal equivalent dendriteI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).
Olfactory bulb main interneuron granule MC cellSomaI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).
Olfactory bulb main interneuron granule MC cellDistal equivalent dendriteI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).
Olfactory bulb main interneuron granule TC cellMiddle equivalent dendriteI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).
Olfactory bulb main interneuron granule TC cellProximal equivalent dendriteI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).
Olfactory bulb main interneuron granule TC cellSomaI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).
Olfactory bulb main interneuron granule TC cellDistal equivalent dendriteI T low threshold.A study in rat using two-photon microscopy to image calcium transients revealed these channels and suggested a novel mechanism for regulation of lateral inhibition (Egger V et al, 2003461 ). Low threshold calcium spikes were antagonized by T-channel blockers in rat (Pinato G and Midtgaard J, 2003490 ).

References
461. Egger V, Svoboda K and Mainen ZF. (2003) Mechanisms of lateral inhibition in the olfactory bulb: efficiency and modulation of spike-evoked calcium influx into granule cells. J Neurosci 23:7551-8.
490. Pinato G and Midtgaard J. (2003) Regulation of granule cell excitability by a low-threshold calcium spike in turtle olfactory bulb. J Neurophysiol 90:3341-51.
_5/20/2018 10:59:40 PM