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Martin Egelhaaf

This is a preview profile on BiomedExperts - the first literature-based scientific social network. It brings the right researchers together and allows them to collaborate online. Collexis and Dell provide the BiomedExperts network of +1.5 Million pre-calculated profiles free of charge to researchers worldwide.

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Diptera

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Co-Publications
Name
22
Warzecha, Anne-Kathrin
20
Borst, Alexander
18
Kern, Roland
14
Kurtz, Rafael
7
Kretzberg, Jutta
7
Lindemann, Jens Peter
7
van Hateren, JH
6
Krapp, Holger
5
Boeddeker, Norbert
5
Grewe, Jan
4
Kalb, Julia
4
Karmeier, Katja
3
Kimmerle, B
3
Dürr, Volker
2
Srinivasan, Mandyam

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Publications

TOP 3
Kurtz Rafael; Egelhaaf Martin; Meyer Hanno Gerd; Kern Roland
Adaptation accentuates responses of fly motion-sensitive visual neurons to sudden stimulus changes.
Kurtz Rafael; Beckers Ulrich; Hundsdörfer Benjamin; Egelhaaf Martin
Mechanisms of after-hyperpolarization following activation of fly visual motion-sensitive neurons.
Beckers U; Egelhaaf M; Kurtz R
Precise timing in fly motion vision is mediated by fast components of combined graded and spike signals.

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All Publications

2009: Kurtz Rafael; Egelhaaf Martin; Meyer Hanno Gerd; Kern Roland
Adaptation accentuates responses of fly motion-sensitive visual neurons to sudden stimulus changes.
Proceedings. Biological sciences / The Royal Society 2009;276(1673):3711-9.
2009: Kurtz Rafael; Beckers Ulrich; Hundsdörfer Benjamin; Egelhaaf Martin
Mechanisms of after-hyperpolarization following activation of fly visual motion-sensitive neurons.
The European journal of neuroscience 2009;30(4):567-77.
2009: Beckers U; Egelhaaf M; Kurtz R
Precise timing in fly motion vision is mediated by fast components of combined graded and spike signals.
Neuroscience 2009;160(3):639-50.
2009: Rosner R; Egelhaaf M; Grewe J; Warzecha A K
Variability of blowfly head optomotor responses.
The Journal of experimental biology 2009;212(Pt 8):1170-84.
2008: Liang Pei; Kern Roland; Egelhaaf Martin
Motion adaptation enhances object-induced neural activity in three-dimensional virtual environment.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2008;28(44):11328-32.
2008: Kalb Julia; Egelhaaf Martin; Kurtz Rafael
Adaptation of velocity encoding in synaptically coupled neurons in the fly visual system.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2008;28(37):9183-93.
2008: Kalb Julia; Egelhaaf Martin; Kurtz Rafael
Adaptation changes directional sensitivity in a visual motion-sensitive neuron of the fly.
Vision research 2008;48(16):1735-42.
2008: Egelhaaf Martin
Fly vision: neural mechanisms of motion computation.
Current biology : CB 2008;18(8):R339-41.
2008: Lindemann Jens Peter; Weiss Holger; Möller Ralf; Egelhaaf Martin
Saccadic flight strategy facilitates collision avoidance: closed-loop performance of a cyberfly.
Biological cybernetics 2008;98(3):213-27.
2008: Hennig Patrick; Möller Ralf; Egelhaaf Martin
Distributed dendritic processing facilitates object detection: a computational analysis on the visual system of the fly.
PloS one 2008;3(8):e3092.
2007: Trischler Christine; Boeddeker Norbert; Egelhaaf Martin
Characterisation of a blowfly male-specific neuron using behaviourally generated visual stimuli.
Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology 2007;193(5):559-72.
2007: Beckers Ulrich; Egelhaaf Martin; Kurtz Rafael
Synapses in the fly motion-vision pathway: evidence for a broad range of signal amplitudes and dynamics.
Journal of neurophysiology 2007;97(3):2032-41.
2007: Grewe Jan; Weckström Matti; Egelhaaf Martin; Warzecha Anne-Kathrin
Information and discriminability as measures of reliability of sensory coding.
PloS one 2007;2(12):e1328.
2006: Grewe Jan; Matos Nélia; Egelhaaf Martin; Warzecha Anne-Kathrin
Implications of functionally different synaptic inputs for neuronal gain and computational properties of fly visual interneurons.
Journal of neurophysiology 2006;96(4):1838-47.
2006: Karmeier K; van Hateren J H; Kern R; Egelhaaf M
Encoding of naturalistic optic flow by a population of blowfly motion-sensitive neurons.
Journal of neurophysiology 2006;96(3):1602-14.
2006: Kalb Julia; Egelhaaf Martin; Kurtz Rafael
Robust integration of motion information in the fly visual system revealed by single cell photoablation.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2006;26(30):7898-906.
2006: Kern R; van Hateren J H; Egelhaaf M
Representation of behaviourally relevant information by blowfly motion-sensitive visual interneurons requires precise compensatory head movements.
The Journal of experimental biology 2006;209(Pt 7):1251-60.
2005: Boeddeker N; Lindemann J P; Egelhaaf M; Zeil J
Responses of blowfly motion-sensitive neurons to reconstructed optic flow along outdoor flight paths.
Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology 2005;191(12):1143-55.
2005: Heitwerth J; Kern R; van Hateren J H; Egelhaaf M
Motion adaptation leads to parsimonious encoding of natural optic flow by blowfly motion vision system.
Journal of neurophysiology 2005;94(3):1761-9.
2005: Karmeier Katja; Krapp Holger G; Egelhaaf Martin
Population coding of self-motion: applying bayesian analysis to a population of visual interneurons in the fly.
Journal of neurophysiology 2005;94(3):2182-94.
2005: Lindemann J P; Kern R; van Hateren J H; Ritter H; Egelhaaf M
On the computations analyzing natural optic flow: quantitative model analysis of the blowfly motion vision pathway.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2005;25(27):6435-48.
2005: Kern Roland; van Hateren J H; Michaelis Christian; Lindemann Jens Peter; Egelhaaf Martin
Function of a fly motion-sensitive neuron matches eye movements during free flight.
PLoS biology 2005;3(6):e171.
2005: van Hateren J H; Kern R; Schwerdtfeger G; Egelhaaf M
Function and coding in the blowfly H1 neuron during naturalistic optic flow.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2005;25(17):4343-52.
2005: Boeddeker Norbert; Egelhaaf Martin
A single control system for smooth and saccade-like pursuit in blowflies.
The Journal of experimental biology 2005;208(Pt 8):1563-72.
2004: Kalb Julia; Nielsen Tim; Fricke Matthias; Egelhaaf Martin; Kurtz Rafael
In vivo two-photon laser-scanning microscopy of Ca2+ dynamics in visual motion-sensitive neurons.
Biochemical and biophysical research communications 2004;316(2):341-7.
2003: Grewe Jan; Kretzberg Jutta; Warzecha Anne-Kathrin; Egelhaaf Martin
Impact of photon noise on the reliability of a motion-sensitive neuron in the fly's visual system.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2003;23(34):10776-83.
2003: Boeddeker Norbert; Egelhaaf Martin
Steering a virtual blowfly: simulation of visual pursuit.
Proceedings. Biological sciences / The Royal Society 2003;270(1527):1971-8.
2003: Karmeier Katja; Krapp Holger G; Egelhaaf Martin
Robustness of the tuning of fly visual interneurons to rotatory optic flow.
Journal of neurophysiology 2003;90(3):1626-34.
2003: Egelhaaf M; Böddeker N; Kern R; Kretzberg J; Lindemann J P; Warzecha A-K
Visually guided orientation in flies: case studies in computational neuroethology.
Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology 2003;189(6):401-9.
2003: Lindemann J P; Kern R; Michaelis C; Meyer P; van Hateren J H; Egelhaaf M
FliMax, a novel stimulus device for panoramic and highspeed presentation of behaviourally generated optic flow.
Vision research 2003;43(7):779-91.
2003: Kurtz Rafael; Egelhaaf Martin
Natural patterns of neural activity: how physiological mechanisms are orchestrated to cope with real life.
Molecular neurobiology 2003;27(1):13-32.
2003: Boeddeker Norbert; Kern Roland; Egelhaaf Martin
Chasing a dummy target: smooth pursuit and velocity control in male blowflies.
Proceedings. Biological sciences / The Royal Society 2003;270(1513):393-9.
2003: Warzecha A-K; Kurtz R; Egelhaaf M
Synaptic transfer of dynamic motion information between identified neurons in the visual system of the blowfly.
Neuroscience 2003;119(4):1103-12.
2002: Egelhaaf Martin; Kern Roland
Vision in flying insects.
Current opinion in neurobiology 2002;12(6):699-706.
2002: Egelhaaf Martin; Kern Roland; Krapp Holger G; Kretzberg Jutta; Kurtz Rafael; Warzecha Anne Kathrin
Neural encoding of behaviourally relevant visual-motion information in the fly.
Trends in neurosciences 2002;25(2):96-102.
2001: Egelhaaf M; Grewe J; Kern R; Warzecha A K
Outdoor performance of a motion-sensitive neuron in the blowfly.
Vision research 2001;41(27):3627-37.
2001: Kretzberg J; Warzecha A K; Egelhaaf M
Neural coding with graded membrane potential changes and spikes.
Journal of computational neuroscience 2001;11(2):153-64.
2001: Kurtz R; Warzecha A K; Egelhaaf M
Transfer of visual motion information via graded synapses operates linearly in the natural activity range.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2001;21(17):6957-66.
2001: Kern R; Lutterklas M; Petereit C; Lindemann J P; Egelhaaf M
Neuronal processing of behaviourally generated optic flow: experiments and model simulations.
Network (Bristol, England) 2001;12(3):351-69.
2001: Kern R; Petereit C; Egelhaaf M
Neural processing of naturalistic optic flow.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2001;21(8):RC139.
2001: Dürr V; Kurtz R; Egelhaaf M
Two classes of visual motion sensitive interneurons differ in direction and velocity dependency of in vivo calcium dynamics.
Journal of neurobiology 2001;46(4):289-300.
2001: Krapp H G; Hengstenberg R; Egelhaaf M
Binocular contributions to optic flow processing in the fly visual system.
Journal of neurophysiology 2001;85(2):724-34.
2001: Karmeier K; Tabor R; Egelhaaf M; Krapp H G
Early visual experience and the receptive-field organization of optic flow processing interneurons in the fly motion pathway.
Visual neuroscience 2001;18(1):1-8.
2001: Kretzberg J; Egelhaaf M; Warzecha A K
Membrane potential fluctuations determine the precision of spike timing and synchronous activity: a model study.
Journal of computational neuroscience 2001;10(1):79-97.
2000: Warzecha A K; Kretzberg J; Egelhaaf M
Reliability of a fly motion-sensitive neuron depends on stimulus parameters.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2000;20(23):8886-96.
2000: 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):1914-23.
2000: Kimmerle B; Egelhaaf M
Performance of fly visual interneurons during object fixation.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2000;20(16):6256-66.
2000: Petrowitz R; Dahmen H; Egelhaaf M; Krapp H G
Arrangement of optical axes and spatial resolution in the compound eye of the female blowfly Calliphora.
Journal of comparative physiology. A, Sensory, neural, and behavioral physiology 2000;186(7-8):737-46.
2000: Horstmann W; Egelhaaf M; Warzecha A K
Synaptic interactions increase optic flow specificity.
The European journal of neuroscience 2000;12(6):2157-65.
2000: Kimmerle B; Eickermann J; Egelhaaf M
Object fixation by the blowfly during tethered flight in a simulated three-dimensional environment.
The Journal of experimental biology 2000;203(Pt 11):1723-32.
2000: Kern R; Lutterklas M; Egelhaaf M
Neuronal representation of optic flow experienced by unilaterally blinded flies on their mean walking trajectories.
Journal of comparative physiology. A, Sensory, neural, and behavioral physiology 2000;186(5):467-79.
2000: Kern R; Egelhaaf M
Optomotor course control in flies with largely asymmetric visual input.
Journal of comparative physiology. A, Sensory, neural, and behavioral physiology 2000;186(1):45-55.
2000: Kimmerle B; Egelhaaf M
Detection of object motion by a fly neuron during simulated flight.
Journal of comparative physiology. A, Sensory, neural, and behavioral physiology 2000;186(1):21-31.
2000: Warzecha A; Egelhaaf M
Response latency of a motion-sensitive neuron in the fly visual system: dependence on stimulus parameters and physiological conditions.
Vision research 2000;40(21):2973-83.
1999: Dürr V; Egelhaaf M
In vivo calcium accumulation in presynaptic and postsynaptic dendrites of visual interneurons.
Journal of neurophysiology 1999;82(6):3327-38.
1999: Egelhaaf M; Warzecha A K
Encoding of motion in real time by the fly visual system.
Current opinion in neurobiology 1999;9(4):454-60.
1999: Warzecha A K; Egelhaaf M
Variability in spike trains during constant and dynamic stimulation.
Science (New York, N.Y.) 1999;283(5409):1927-30.
1999: Zanker J M; Srinivasan M V; Egelhaaf M
Speed tuning in elementary motion detectors of the correlation type.
Biological cybernetics 1999;80(2):109-16.
1998: Warzecha A K; Kretzberg J; Egelhaaf M
Temporal precision of the encoding of motion information by visual interneurons.
Current biology : CB 1998;8(7):359-68.
1998: Warzecha A K; Egelhaaf M
On the performance of biological movement detectors and ideal velocity sensors in the context of optomotor course stabilization.
Visual neuroscience 1998;15(1):113-22.
1997: Kern R; Egelhaaf M; Srinivasan M V
Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism.
Vision research 1997;37(15):2103-17.
1997: Warzecha A K; Egelhaaf M
How reliably does a neuron in the visual motion pathway of the fly encode behaviourally relevant information?
The European journal of neuroscience 1997;9(7):1365-74.
1995: Egelhaaf M; Borst A
Calcium accumulation in visual interneurons of the fly: stimulus dependence and relationship to membrane potential.
Journal of neurophysiology 1995;73(6):2540-52.
1995: Borst A; Egelhaaf M; Haag J
Mechanisms of dendritic integration underlying gain control in fly motion-sensitive interneurons.
Journal of computational neuroscience 1995;2(1):5-18.
1995: Brotz T M; Egelhaaf M; Borst A
A preparation of the blowfly (Calliphora erythrocephala) brain for in vitro electrophysiological and pharmacological studies.
Journal of neuroscience methods 1995;57(1):37-46.
1994: Egelhaaf M; Haag J; Borst A
Processing of synaptic information depends on the structure of the dendritic tree.
Neuroreport 1994;6(1):205-8.
1994: Borst A; Egelhaaf M
Dendritic processing of synaptic information by sensory interneurons.
Trends in neurosciences 1994;17(6):257-63.
1993: Egelhaaf M; Borst A
A look into the cockpit of the fly: visual orientation, algorithms, and identified neurons.
The Journal of neuroscience : the official journal of the Society for Neuroscience 1993;13(11):4563-74.
1993: Egelhaaf M; Borst A
Motion computation and visual orientation in flies.
Comparative biochemistry and physiology. Comparative physiology 1993;104(4):659-73.
1993: Egelhaaf M; Borst A; Warzecha A K; Flecks S; Wildemann A
Neural circuit tuning fly visual neurons to motion of small objects. II. Input organization of inhibitory circuit elements revealed by electrophysiological and optical recording techniques.
Journal of neurophysiology 1993;69(2):340-51.
1993: Warzecha A K; Egelhaaf M; Borst A
Neural circuit tuning fly visual interneurons to motion of small objects. I. Dissection of the circuit by pharmacological and photoinactivation techniques.
Journal of neurophysiology 1993;69(2):329-39.
1993: Egelhaaf M; Borst A
Movement detection in arthropods.
Reviews of oculomotor research 1993;5():53-77.
1993: Borst A; Egelhaaf M
Detecting visual motion: theory and models.
Reviews of oculomotor research 1993;5():3-27.
1992: Warzecha A K; Borst A; Egelhaaf M
Photo-ablation of single neurons in the fly visual system reveals neural circuit for the detection of small moving objects.
Neuroscience letters 1992;141(1):119-22.
1992: Haag J; Egelhaaf M; Borst A
Dendritic integration of motion information in visual interneurons of the blowfly.
Neuroscience letters 1992;140(2):173-6.
1992: Borst A; Egelhaaf M
In vivo imaging of calcium accumulation in fly interneurons as elicited by visual motion stimulation.
Proceedings of the National Academy of Sciences of the United States of America 1992;89(9):4139-43.
1992: Egelhaaf M; Borst A
Are there separate ON and OFF channels in fly motion vision?
Visual neuroscience 1992;8(2):151-64.
1990: Borst A; Egelhaaf M
Direction selectivity of blowfly motion-sensitive neurons is computed in a two-stage process.
Proceedings of the National Academy of Sciences of the United States of America 1990;87(23):9363-7.
1990: Egelhaaf M; Borst A; Pilz B
The role of GABA in detecting visual motion.
Brain research 1990;509(1):156-60.
1989: Egelhaaf M
Visual afferences to flight steering muscles controlling optomotor responses of the fly.
Journal of comparative physiology. A, Sensory, neural, and behavioral physiology 1989;165(6):719-30.
1989: Borst A; Egelhaaf M
Principles of visual motion detection.
Trends in neurosciences 1989;12(8):297-306.
1989: Egelhaaf M; Borst A; Reichardt W
Computational structure of a biological motion-detection system as revealed by local detector analysis in the fly's nervous system.
Journal of the Optical Society of America. A, Optics and image science 1989;6(7):1070-87.
1989: Egelhaaf M; Borst A
Transient and steady-state response properties of movement detectors.
Journal of the Optical Society of America. A, Optics and image science 1989;6(1):116-27.
1988: Egelhaaf M; Hausen K; Reichardt W; Wehrhahn C
Visual course control in flies relies on neuronal computation of object and background motion.
Trends in neurosciences 1988;11(8):351-8.
1988: Reichardt W; Egelhaaf M; Schlögl R W
Movement detectors provide sufficient information for local computation of 2-D velocity field.
Die Naturwissenschaften 1988;75(6):313-5.

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