Is there a dendritic mechanism underlying visual motion adaptation?
Dürr V, Egelhaaf M (1998)
In: Proc.Göttingen.Neurobiol.Conf., 26(I). 133-133.
Kurzbeitrag Konferenz / Poster
| Veröffentlicht | Englisch
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Autor*in
Einrichtung
Stichworte
Motion adaptation;
Calcium dependency;
HS-Cells;
Calliphora;
fly;
BAPTA;
CELL;
Receptive field;
H1-Cell;
interneuron;
response;
ganglion;
Visual Interneuron;
TIME;
input;
Time constant;
stimulus;
after-hyperpolarisation;
Intracellular recording;
Motion Detection;
stimulation;
optical imaging;
increase;
calcium;
RECORDINGS;
direction;
MECHANISM;
presynaptic;
INTRACELLULAR-RECORDINGS;
membrane potential;
interneurons;
membrane;
Adaptation;
Lobula plate
Erscheinungsjahr
1998
Titel des Konferenzbandes
Proc.Göttingen.Neurobiol.Conf.
Band
26
Ausgabe
I
Seite(n)
133-133
Page URI
https://pub.uni-bielefeld.de/record/1681339
Zitieren
Dürr V, Egelhaaf M. Is there a dendritic mechanism underlying visual motion adaptation? In: Proc.Göttingen.Neurobiol.Conf. Vol 26. 1998: 133-133.
Dürr, V., & Egelhaaf, M. (1998). Is there a dendritic mechanism underlying visual motion adaptation? Proc.Göttingen.Neurobiol.Conf., 26, 133-133.
Dürr, Volker, and Egelhaaf, Martin. 1998. “Is there a dendritic mechanism underlying visual motion adaptation?”. In Proc.Göttingen.Neurobiol.Conf., 26:133-133.
Dürr, V., and Egelhaaf, M. (1998). “Is there a dendritic mechanism underlying visual motion adaptation?” in Proc.Göttingen.Neurobiol.Conf., vol. 26, 133-133.
Dürr, V., & Egelhaaf, M., 1998. Is there a dendritic mechanism underlying visual motion adaptation? In Proc.Göttingen.Neurobiol.Conf. no.26 pp. 133-133.
V. Dürr and M. Egelhaaf, “Is there a dendritic mechanism underlying visual motion adaptation?”, Proc.Göttingen.Neurobiol.Conf., vol. 26, 1998, pp.133-133.
Dürr, V., Egelhaaf, M.: Is there a dendritic mechanism underlying visual motion adaptation? Proc.Göttingen.Neurobiol.Conf. 26, p. 133-133. (1998).
Dürr, Volker, and Egelhaaf, Martin. “Is there a dendritic mechanism underlying visual motion adaptation?”. Proc.Göttingen.Neurobiol.Conf. 1998.Vol. 26. 133-133.
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