Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo

Kurtz R, Dürr V, Egelhaaf M (2000)
Journal of Neurophysiology 84(4): 1914-1923.

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Journal of Neurophysiology
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84
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1914-1923
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Kurtz R, Dürr V, Egelhaaf M. Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo. Journal of Neurophysiology. 2000;84(4):1914-1923.
Kurtz, R., Dürr, V., & Egelhaaf, M. (2000). Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo. Journal of Neurophysiology, 84(4), 1914-1923.
Kurtz, R., Dürr, V., and Egelhaaf, M. (2000). Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo. Journal of Neurophysiology 84, 1914-1923.
Kurtz, R., Dürr, V., & Egelhaaf, M., 2000. Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo. Journal of Neurophysiology, 84(4), p 1914-1923.
R. Kurtz, V. Dürr, and M. Egelhaaf, “Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo”, Journal of Neurophysiology, vol. 84, 2000, pp. 1914-1923.
Kurtz, R., Dürr, V., Egelhaaf, M.: Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo. Journal of Neurophysiology. 84, 1914-1923 (2000).
Kurtz, Rafael, Dürr, Volker, and Egelhaaf, Martin. “Dendritic calcium accumulation associated with direction-selective adaptation in visual motion-sensitive neurons in vivo”. Journal of Neurophysiology 84.4 (2000): 1914-1923.
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22 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Texture dependence of motion sensing and free flight behavior in blowflies.
Lindemann JP, Egelhaaf M., Front Behav Neurosci 6(), 2012
PMID: 23335890
Octopaminergic modulation of contrast sensitivity.
de Haan R, Lee YJ, Nordström K., Front Integr Neurosci 6(), 2012
PMID: 22876224
The many facets of adaptation in fly visual motion processing.
Kurtz R., Commun Integr Biol 2(1), 2009
PMID: 19704857
The motion after-effect: local and global contributions to contrast sensitivity.
Nordström K, O'Carroll DC., Proc Biol Sci 276(1662), 2009
PMID: 19324825
Mechanisms of after-hyperpolarization following activation of fly visual motion-sensitive neurons.
Kurtz R, Beckers U, Hundsdörfer B, Egelhaaf M., Eur J Neurosci 30(4), 2009
PMID: 19674090
Application of multiline two-photon microscopy to functional in vivo imaging.
Kurtz R, Fricke M, Kalb J, Tinnefeld P, Sauer M., J Neurosci Methods 151(2), 2006
PMID: 16442636
Multiplication and stimulus invariance in a looming-sensitive neuron.
Gabbiani F, Krapp HG, Hatsopoulos N, Mo CH, Koch C, Laurent G., J Physiol Paris 98(1-3), 2004
PMID: 15477020
In vivo two-photon laser-scanning microscopy of Ca2+ dynamics in visual motion-sensitive neurons.
Kalb J, Nielsen T, Fricke M, Egelhaaf M, Kurtz R., Biochem Biophys Res Commun 316(2), 2004
PMID: 15020223
Orientation tuning of motion-sensitive neurons shaped by vertical-horizontal network interactions.
Haag J, Borst A., J Comp Physiol A Neuroethol Sens Neural Behav Physiol 189(5), 2003
PMID: 12720032
Neuronal processing of behaviourally generated optic flow: experiments and model simulations.
Kern R, Lutterklas M, Petereit C, Lindemann JP, Egelhaaf M., Network 12(3), 2001
PMID: 11563534

56 References

Daten bereitgestellt von Europe PubMed Central.


AUTHOR UNKNOWN, 0
Principles of visual motion detection.
Borst A, Egelhaaf M., Trends Neurosci. 12(8), 1989
PMID: 2475948
Direction selectivity of blowfly motion-sensitive neurons is computed in a two-stage process.
Borst A, Egelhaaf M., Proc. Natl. Acad. Sci. U.S.A. 87(23), 1990
PMID: 2251278
In vivo imaging of calcium accumulation in fly interneurons as elicited by visual motion stimulation.
Borst A, Egelhaaf M., Proc. Natl. Acad. Sci. U.S.A. 89(9), 1992
PMID: 1570340
A model of temporal adaptation in fly motion vision.
Clifford CW, Langley K., Vision Res. 36(16), 1996
PMID: 8917820
Psychophysics of motion adaptation parallels insect electrophysiology.
Clifford CW, Langley K., Curr. Biol. 6(10), 1996
PMID: 8939568
Adaptation to temporal modulation can enhance differential speed sensitivity.
Clifford CW, Wenderoth P., Vision Res. 39(26), 1999
PMID: 10789426

AUTHOR UNKNOWN, 0

AUTHOR UNKNOWN, 0
Transient and steady-state response properties of movement detectors.
Egelhaaf M, Borst A., J Opt Soc Am A 6(1), 1989
PMID: 2921651
Mechanisms of hair cell tuning.
Fettiplace R, Fuchs PA., Annu. Rev. Physiol. 61(), 1999
PMID: 10099711
Synapse distribution on VCH, an inhibitory, motion-sensitive interneuron in the fly visual system.
Gauck V, Egelhaaf M, Borst A., J. Comp. Neurol. 381(4), 1997
PMID: 9136805

AUTHOR UNKNOWN, 0
The time course of direction-selective adaptation in simple and complex cells in cat striate cortex.
Giaschi D, Douglas R, Marlin S, Cynader M., J. Neurophysiol. 70(5), 1993
PMID: 8294968
Adaptation and the temporal delay filter of fly motion detectors.
Harris RA, O'Carroll DC, Laughlin SB., Vision Res. 39(16), 1999
PMID: 10492824

Harris, Proc Göttingen Neurobiol Conf 27(), 1999

Hausen, Z Naturforsch [C] 31(), 1976

Hausen, Verh Dtsch Zool Ges 1981(), 1981

AUTHOR UNKNOWN, 0

AUTHOR UNKNOWN, 0
Adaptation to visual motion in directional neurons of the nucleus of the optic tract.
Ibbotson MR, Clifford CW, Mark RF., J. Neurophysiol. 79(3), 1998
PMID: 9497426

AUTHOR UNKNOWN, 0

AUTHOR UNKNOWN, 0
Regulation of sensitivity in vertebrate rod photoreceptors by calcium.
Koutalos Y, Yau KW., Trends Neurosci. 19(2), 1996
PMID: 8820871
Estimation of self-motion by optic flow processing in single visual interneurons.
Krapp HG, Hengstenberg R., Nature 384(6608), 1996
PMID: 8945473
Physiological properties of neurons in the optic layer of the rat's superior colliculus.
Lo FS, Cork RJ, Mize RR., J. Neurophysiol. 80(1), 1998
PMID: 9658054

Maddess, J Exp Biol 161(), 1991

AUTHOR UNKNOWN, 0
Direction-selective adaptation in simple and complex cells in cat striate cortex.
Marlin SG, Hasan SJ, Cynader MS., J. Neurophysiol. 59(4), 1988
PMID: 3373280
Calcium signalling and regulation in olfactory neurons.
Menini A., Curr. Opin. Neurobiol. 9(4), 1999
PMID: 10448159
Direction-specific adaptation in area MT of the owl monkey.
Petersen SE, Baker JF, Allman JM., Brain Res. 346(1), 1985
PMID: 4052761

AUTHOR UNKNOWN, 0

Sekuler, Handbook of Sensory Physiology. Perception (), 1978
Dendritic integration and its role in computing image velocity.
Single S, Borst A., Science 281(5384), 1998
PMID: 9743497
Dendritic computation of direction selectivity and gain control in visual interneurons.
Single S, Haag J, Borst A., J. Neurosci. 17(16), 1997
PMID: 9236213
Motion detection in insect orientation and navigation.
Srinivasan MV, Poteser M, Kral K., Vision Res. 39(16), 1999
PMID: 10492835
Visual motion aftereffect in human cortical area MT revealed by functional magnetic resonance imaging.
Tootell RB, Reppas JB, Dale AM, Look RB, Sereno MI, Malach R, Brady TJ, Rosen BR., Nature 375(6527), 1995
PMID: 7753168
Calculation of calcium dynamics from single wavelength fura-2 fluorescence recordings.
Vranesic I, Knopfel T., Pflugers Arch. 418(1-2), 1991
PMID: 2041721

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