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Cited publications: 30
Citations: 755
h-index: 16


Pauly D, Chacana PA, Calzado EG, Brembs B, Schade R (2011): IgY technology: extraction of chicken antibodies from egg yolk by polyethylene glycol (PEG) precipitation. J Vis Exp. (51), e3084, DOI: 10.3791/3084
Citations:
  1. Bellingeri RV, Busso L, Alustiza FE, Picco NY, Molinero DP, Grosso MC, Motta CE, Vivas AB (2013): Characterization of egg yolk immunoglobulin (IgY) against enterotoxigenic Escherichia coli and evaluation of its effects on bovine intestinal cells. Afr J Microbiol Res 7(5): 398-405
  2. Dai YC, Zhang XF, Tan M, Huang P, Lei W, Fang H, Zhong W, Jiang X (2012): A dual chicken IgY against rotavirus and norovirus. Antiviral Res. doi:pii: S0166-3542(12)00291-4. 10.1016/j.antiviral.2012.12.011. [Epub ahead of print]
  3. Tan SH, Mohamedali A, Kapur A, Baker MS (2012): Ultradepletion of Human Plasma using Chicken Antibodies: A Proof of Concept study. J Proteome Res. DOI: 10.1021/pr3007182
  4. Niederstadt L, Hohn O, Dorner BG, Schade R, Bannert N. (2012): Stimulation of IgY responses in gene gun immunized laying hens by combined administration of vector DNA coding for the target antigen Botulinum toxin A1 and for avian cytokine adjuvants. J Immunol Methods. 382(1-2):58-67
  5. Niederstadt L, Schade R (2012): IgY technology: What are polyclonal avian antibodies and what can they do? BioSpektrum 18(2): 174-177
  6. Tan SH, Mohamedali A, Kapur A, Lukjanenko L, Baker MS (2012): A novel, cost-effective and efficient chicken egg IgY purification procedure. J Immunol Methods. 380(1-2):73-76
  7. Niederstadt L (2012): Herstellung von DNA induzierten mono-/polyklonalen Antikörpern, zur Schnelldetektion von hochpathogenen viralen Erregern und bioterroristisch relevanten Toxinen. PhD thesis, Freie Universität Berlin, http://www.diss.fu-berlin.de/diss/servlets/MCRFileNodeServlet/FUDISS_derivate_000000011103/Dissertation_Lars_Niederstadt.pdf
Brembs, B. (2011): Spontaneous decisions and operant conditioning in fruit flies. Behav Processes 87: 157-164
Citations:
  1. Nargeot R, Simmers J (2012): Functional Organization and Adaptability of a Decision-Making Network in Aplysia. Front Neurosci. 6:113
  2. Eschbach C (2012): Classical and operant learning in the larvae of Drosophila melanogaster. PhD thesis, University of Würzburg, http://opus.bibliothek.uni-wuerzburg.de/volltexte/2012/7058
Brembs, B. (2011): Towards a scientific concept of free will as a biological trait: spontaneous actions and decision-making in invertebrates. Proc. Roy. Soc. B. 278(1707): 930-939
Citations:
  1. Wong KFE, Cheng C (2013): Predictable or Not? Individuals’ Risk Decisions Do Not Necessarily Predict Their Next Ones. PLoS ONE 8(2): e56811
  2. Frith C (2013): The psychology of volition. Exp Brain Res. 2013 Jan 25. [Epub ahead of print]
  3. Lemos J (2013): Freedom, Responsibility, and Determinism: A Philosophical Dialogue. Hackett Publishing Co. ISBN-13: 978-1603849302, 120 pages
  4. Martius G, Der R, Ay N (2013): Information driven self-organization of complex robotic behaviors arXiv:1301.7473v1 [cs.RO]
  5. Radder H, Meynen G (2013): Does the brain "initiate" freely willed processes? A philosophy of science critique of Libet-type experiments and their interpretation. Theory & Psychology, 23(1): 3-21
  6. Nepomnyashchikh VA (2012): Variability in invertebrate behavior and the problem of free will. Zhurnal Obshchei Biologii 73(6): 435-441
  7. Grandpierre A, Kafatos M (2012): Biological Autonomy. Philosophy Study, 2(9): 631-649
  8. Warzecha AK, Rosner R, Grewe J (2012): Impact and sources of neuronal variability in the fly's motion vision pathway. J Physiol - Paris DOI: 10.1016/j.jphysparis.2012.10.002
  9. Rigoni D, Kühn S, Gaudino G, Sartori G, Brass M (2012): Reducing self-control by weakening belief in free will. Conscious Cogn. 21(3):1482-1490
  10. Zhang S, Si A, Pahl M (2012): Visually guided decision making in foraging honeybees. Front Neurosci. 6:88
  11. Nargeot R, Simmers J (2012): Functional Organization and Adaptability of a Decision-Making Network in Aplysia. Front Neurosci. 6:113
  12. Stamps JA, Briffa M, Biro PA (2012): Unpredictable animals: Individual differences in intraindividual variability (IIV). Anim Behav. 83(6): 1325–1334
  13. Tomina Y, Takahata M (2012): Discrimination learning with light stimuli in restrained American lobster. Behav Brain Res. 229(1):91-105
  14. Barham JA (2012): Normativity, agency, and life. Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences. 43(1): 92–103
  15. Miller SM, Ngo TT and van Swinderen B (2012): Attentional switching in humans and flies: rivalry in large and miniature brains. Front. Hum. Neurosci. 5:188. doi: 10.3389/fnhum.2011.00188
  16. Ansorge U, Horstmann G, Scharlau I (2011): Top-down contingent feature-specific orienting with and without awareness of the visual input. Adv. Cogn. Psych. 7(1): 108-119
  17. de Sousa JC (2011): The uncertainty of free will and agent's penal responsibility. Orbis: Revista Científica 2(3): 287-312
  18. Barham JA (2011): Teleological Realism in Biology, PhD Thesis, University of Notre Dame, USA.
  19. Mele AR (2011): Libertarianism and Human Agency. Phil Phen Res. DOI: 10.1111/j.1933-1592.2011.00529.x
  20. Schüür F, Haggard P (2011): What are self-generated actions? Conscious Cogn. 20(4): 1697-1704
  21. Koukolík F (2011): Basics of cognitive, affective and social neuroscience. VI. Free will. Prakticky Lekar 91(6): 315-320
  22. Cobbe N (2011): Interspecies Mixtures and the Status of Humanity. In: Suarez A, Huarte J (eds.) Is this cell a human being? Springer, Berlin, Heidelberg. pp129-155, DOI: 10.1007/978-3-642-20772-3_9
  23. Chittka L, Skorupski P (2011): Information processing in miniature brains. Proc. Roy. Soc. B. 278(1707): 885-888
Brembs B.; Pauly D.; Schade R.; Mendoza E.; Pflüger J.; Rybak J.; Scharff C.; Zars T. (2010): The Drosophila FoxP gene is necessary for operant self-learning: implications for the evolutionary origins of language. Soc. Neurosci. Abstr., 704.7
Citations:
  1. Scharff C, Petri J (2011): Evo-devo, deep homology and FoxP2: implications for the evolution of speech and language. Philos Trans R Soc Lond B Biol Sci. 366(1574):2124-2140
van Swinderen, B.; Brembs, B. (2010): Attention-like deficit and hyperactivity in a Drosophila memory mutant. J Neurosci. 30(3): 1003-1014
Citations:
  1. van Alphen B, van Swinderen B (2013): Drosophila strategies to study psychiatric disorders. Brain Res Bull. 92:1-11
  2. Haendel MA, Chesler EJ (2012): Lost and found in behavioral informatics. Int Rev Neurobiol. 103:1-18
  3. van Swinderen B (2012): Competing visual flicker reveals attention-like rivalry in the fly brain. Front Integr Neurosci. 6:96. doi: 10.3389/fnint.2012.00096
  4. Arena P, Patane L, Termini P (2012): Modeling attentional loop in the insect Mushroom Bodies. The 2012 International Joint Conference on Neural Networks (IJCNN), 1-7. DOI: 10.1109/IJCNN.2012.6252833
  5. Miller SM, Ngo TT and van Swinderen B (2012): Attentional switching in humans and flies: rivalry in large and miniature brains. Front. Hum. Neurosci. 5:188. doi: 10.3389/fnhum.2011.00188
  6. Baddeley B, Graham P, Husbands P, Philippides A (2012): A Model of Ant Route Navigation Driven by Scene Familiarity. PLoS Comput Biol 8(1): e1002336. doi:10.1371/journal.pcbi.1002336
  7. Leboulle G (2012): Glutamate Neurotransmission in the Honey Bee Central Nervous System. In: Galizia CG, Eisenhardt D, Giurfa M (eds.): Honeybee Neurobiology and Behavior, a tribute to Randolf Menzel. Part 3, 171-184, DOI: 10.1007/978-94-007-2099-2_14
  8. Farris SM, Pettrey C, Daly KC (2011): A subpopulation of mushroom body intrinsic neurons is generated by protocerebral neuroblasts in the tobacco hornworm moth, Manduca sexta (Sphingidae, Lepidoptera). Arthropod Struct Dev. 40(5):395-408
  9. van Swinderen B (2011): Attention in Drosophila. Int Rev Neurobiol. 99:51-85
  10. Lee PT, Lin HW, Chang YH, Fu TF, Dubnau J, Hirsh J, Lee T, Chiang AS (2011): Serotonin-mushroom body circuit modulating the formation of anesthesia-resistant memory in Drosophila. Proc Natl Acad Sci U S A. 108(33):13794-13799
  11. LaFerriere H, Speichinger K, Stromhaug A, Zars T (2011); The Radish Gene Reveals a Memory Component with Variable Temporal Properties. PLoS ONE 6(9): e24557
  12. Evans O, Paulk AC, van Swinderen B (2011): An Automated Paradigm for Drosophila Visual Psychophysics. PLoS ONE 6(6): e21619
  13. Farris SM (2011): Are mushroom bodies cerebellum-like structures? Arthropod Struct Dev. 40(4):368-379
  14. Sareen P, Wolf R, Heisenberg M (2011): Attracting the attention of a fly. Proc Natl Acad Sci U S A. 108(17):7230-7235
  15. van Swinderen B, Andretic R (2011): Dopamine in Drosophila: setting arousal thresholds in a miniature brain. Proc. Roy. Soc. B. 278(1707): 906-913
  16. Farris SM, Schulmeister S (2011): Parasitoidism, not sociality, is associated with the evolution of elaborate mushroom bodies in the brains of hymenopteran insects. Proc Biol Sci. 278(1707): 940-951
  17. Blackiston D, Shomrat T, Nicolas CL, Granata C, Levin M. (2010): A second-generation device for automated training and quantitative behavior analyses of molecularly-tractable model organisms. PLoS One 5(12):e14370
Colomb J.; Brembs, B. (2010): The biology of psychology: 'Simple' conditioning? Commun Integr Biol. 3(2):142-145
Citations:
  1. Scheich H, Brosch M (2013): Task-Related Activation of Auditory Cortex. Springer Handbook of Auditory Research. Cohen YE, Popper AN, Fay RR, editors Springer-Verlag. DOI:10.1007/978-1-4614-2350-8_3
  2. Nepomnyashchikh VA (2012): Variability in invertebrate behavior and the problem of free will. Zhurnal Obshchei Biologii 73(6): 435-441
  3. Eschbach C (2012): Classical and operant learning in the larvae of Drosophila melanogaster. PhD thesis, University of Würzburg, http://opus.bibliothek.uni-wuerzburg.de/volltexte/2012/7058
Brembs, B. (2009): The importance of being active. J. Neurogen. 23(1): 120-126.
Citations:
  1. Nepomnyashchikh VA (2013): Increases in variations in animal behavior induced by autocorrelations. Biol Bull Rev, 3(1), 49–56
  2. Chen J, Ruan XG, Dai LZ (2012): Behavior Cognition Computational Model Based on Cerebellum and Basal Ganglia Mechanism. Pattern Recognition and Artificial Intelligence 25(1): 29-36
  3. Eschbach C (2012): Classical and operant learning in the larvae of Drosophila melanogaster. PhD thesis, University of Würzburg, http://opus.bibliothek.uni-wuerzburg.de/volltexte/2012/7058
  4. Koukolík F (2011): Basics of cognitive, affective and social neuroscience. VI. Free will. Prakticky Lekar 91(6): 315-320
  5. Ruan X-G, Chen J (2011): Operant conditioning reflex learning control scheme based on SMC and Elman network. Control and Decision. 26(9):1398-1401
Brembs, B. (2009): Mushroom bodies regulate habit formation in Drosophila. Curr Biol. 19(16): 1351–1355.
Citations:
  1. Arena P, Patané L, Stornanti V, Termini PS, Zäpf B, Strauss R (2013): Modeling the insect mushroom bodies: Application to a delayed match-to-sample task. Neur. Net. 41: 202–211. DOI: 10.1016/j.neunet.2012.11.013
  2. Parker MO, Brock AJ, Walton RT, Brennan CH (2013): The role of zebrafish (Danio rerio) in dissecting the genetics and neural circuits of executive function. Front Neural Circuits. 7:63
  3. Namiki S, Takaguchi M, Seki Y, Kazawa T, Fukushima R, Iwatsuki C, Kanzaki R (2013): Concentric zones for pheromone components in the mushroom body calyx of the moth brain. J Comp Neurol. 521(5):1073-1092
  4. Nepomnyashchikh VA (2012): Variability in invertebrate behavior and the problem of free will. Zhurnal Obshchei Biologii 73(6): 435-441
  5. Joseph RM, Heberlein U (2012): Tissue-specific activation of a single gustatory receptor produces opposing behavioral responses in Drosophila. Genetics. 192(2):521-532
  6. Shmuelof L, Huang VS, Haith AM, Delnicki RJ, Mazzoni P, Krakauer JW (2012): Overcoming motor "forgetting" through reinforcement of learned actions. J Neurosci. 32(42):14617-14621
  7. Wu Y, Ren Q, Li H, Guo A (2012): The GABAergic anterior paired lateral neurons facilitate olfactory reversal learning in Drosophila. Learn Mem. 19(10):478-486
  8. Ren Q, Li H, Wu Y, Ren J, Guo A (2012): A GABAergic inhibitory neural circuit regulates visual reversal learning in Drosophila. J Neurosci. 32(34):11524-11538
  9. Zanini D, Jallon JM, Rabinow L, Samson ML (2012): Deletion of the Drosophila neuronal gene found in neurons disrupts brain anatomy and male courtship. Genes Brain Behav. 11 (7): 819-827
  10. Zhao XL, Campos AR (2012): Insulin signalling in mushroom body neurons regulates feeding behaviour in Drosophila larvae. J Exp Biol. 215(Pt 15):2696-2702.
  11. Eschbach C (2012): Classical and operant learning in the larvae of Drosophila melanogaster. PhD thesis, University of Würzburg, http://opus.bibliothek.uni-wuerzburg.de/volltexte/2012/7058
  12. Tomina Y, Takahata M (2012): Discrimination learning with light stimuli in restrained American lobster. Behav Brain Res. 229(1):91-105
  13. van Swinderen B (2011): Attention in Drosophila. Int Rev Neurobiol. 99:51-85
  14. Farris SM (2011): Are mushroom bodies cerebellum-like structures? Arthropod Struct Dev. 40(4):368-379
  15. Sorribes A, Armendariz BG, Lopez-Pigozzi D, Murga C, de Polavieja GG (2011): The Origin of Behavioral Bursts in Decision-Making Circuitry. PLoS Comput Biol 7(6): e1002075
  16. Farris SM, Schulmeister S (2010): Parasitoidism, not sociality, is associated with the evolution of elaborate mushroom bodies in the brains of hymenopteran insects. Proc Biol Sci. 278 (1707): 940-951
  17. Foucaud J, Burns JG, Mery F (2010): Use of Spatial Information and Search Strategies in a Water Maze Analog in Drosophila melanogaster. PLoS ONE 5(12): e15231
  18. Waddell S (2010): Dopamine reveals neural circuit mechanisms of fly memory. Trends Neurosci. 33(10):457-464
  19. Abramson CI, Nolf SL, Mixson TA, Well H (2010): Can Honey Bees Learn the Removal of a Stimulus as a Conditioning Cue? Ethology 116(9): 843–854
  20. Zars T (2010): Short-term memories in Drosophila are governed by general and specific genetic systems. Learn. Mem. 17: 246-251
  21. Yu C, Gupta J, Chen JF, Yin HH (2009): Genetic Deletion of A2A Adenosine Receptors in the Striatum Selectively Impairs Habit Formation. J Neurosci. 29(48):15100-15103
  22. van Swinderen, B. (2009): Fly Memory: A Mushroom Body Story in Parts. Curr Biol. 19(18): R855-R857
Brembs, B. (2008): Operant learning of Drosophila at the torque meter. J Vis Exp. 16. http://www.jove.com/details.stp?id=731 doi:10.3791/731.
Citations:
  1. Kirkerud NH, Wehmann H-N, Galizia CG and Gustav D (2013): APIS—a novel approach for conditioning honey bees. Front. Behav. Neurosci. 7:29. doi: 10.3389/fnbeh.2013.00029
  2. Miller SM, Ngo TT and van Swinderen B (2012): Attentional switching in humans and flies: rivalry in large and miniature brains. Front. Hum. Neurosci. 5:188. doi: 10.3389/fnhum.2011.00188
  3. Visvanathan K, Gianchandani YB (2011): Locomotion response of airborne, ambulatory and aquatic insects to thermal stimulation using piezoceramic microheaters. J. Micromech. Microeng. 21: 125002 (9pp)
  4. van Swinderen B, Andretic R (2011): Dopamine in Drosophila: setting arousal thresholds in a miniature brain. Proc. Roy. Soc. B. 278(1707): 906-913
  5. Masek P, Scott K (2010): Limited taste discrimination in Drosophila. Proc Natl Acad Sci U S A. 107(33):14833-14838
Brembs, B.; Plendl, W. (2008): Double dissociation of PKC and AC manipulations on operant and classical learning in Drosophila. Curr Biol. 18(15): 1168-1171.
Citations:
  1. Garren MV, Sexauer SB, Page TL (2013): Effect of Circadian Phase on Memory Acquisition and Recall: Operant Conditioning vs. Classical Conditioning. PLoS ONE 8(3): e58693
  2. Cai J, Yu R, Cheng R (2012): Autonomous navigation research for mobile robot. Proceedings of the World Congress on Intelligent Control and Automation (WCICA), art. no. 6357893, pp. 331-335
  3. Chen J, Ruan XG, Dai LZ (2012): Behavior Cognition Computational Model Based on Cerebellum and Basal Ganglia Mechanism. Pattern Recognition and Artificial Intelligence 25(1): 29-36
  4. Cai JX, Sun X, Ma HR, Wang QS (2012): Research autonomous motion control for snake robot based on bionic learning strategy. 2012 Proceedings of International IEEE Conference on Modelling, Identification & Control (ICMIC), 826-831
  5. Eschbach C (2012): Classical and operant learning in the larvae of Drosophila melanogaster. PhD thesis, University of Würzburg, http://opus.bibliothek.uni-wuerzburg.de/volltexte/2012/7058
  6. Tomina Y, Takahata M (2012): Discrimination learning with light stimuli in restrained American lobster. Behav Brain Res. 229(1):91-105
  7. Ueda A, Wu CF (2012): Cyclic Adenosine Monophosphate Metabolism in Synaptic Growth, Strength, and Precision: Neural and Behavioral Phenotype-Specific Counterbalancing Effects between dnc Phosphodiesterase and rut Adenylyl Cyclase Mutations. J Neurogenet. 26(1):64-81
  8. Shuai Y, Hu Y, Qin H, Campbell RA, Zhong Y (2011): Distinct molecular underpinnings of Drosophila olfactory trace conditioning. Proc Natl Acad Sci U S A. 108(50):20201-20206
  9. Ruan X-G, Chen J (2011): Operant conditioning reflex learning control scheme based on SMC and Elman network. Control and Decision. 26(9):1398-1401
  10. Kahsai L, Zars T (2011): Learning and memory in Drosophila: behavior, genetics, and neural systems. Int Rev Neurobiol. 99:139-167
  11. Ruan X, Chen J, Dai L (2011): Motor Learning Based on the Cooperation of Cerebellum and Basal Ganglia for a Self-balancing Two-wheeled Robot. Intelligent Control and Automation 2(3): 57-68
  12. Zars T (2010): Short-term memories in Drosophila are governed by general and specific genetic systems. Learn. Mem. 17: 246-251
  13. Claridge-Chang A, Roorda RD, Vrontou E, Sjulson L, Li H, Hirsh J, Miesenböck G. (2009): Writing memories with light-addressable reinforcement circuitry. Cell 139(2):405-415
  14. Lorenzetti FD, Baxter DA, Byrne JH (2008): Molecular Mechanisms Underlying a Cellular Analog of Operant Reward Learning. Neuron 59: 815-828
Brembs, B.; Christiansen, F.; Pflüger, H.J.; Duch, C. (2007): Flight initiation and maintenance deficits in flies with genetically altered biogenic amine levels. J Neurosci 27: 11122–11131.
Citations:
  1. Wosnitza A, Bockemühl T, Dübbert M, Scholz H, Büschges A. (2013): Inter-leg coordination in the control of walking speed in Drosophila. J Exp Biol. 216(Pt 3):480-491
  2. Schneider A, Ruppert M, Hendrich O, Giang T, Ogueta M, Hampel S, Vollbach M, Büschges A, Scholz H (2012): Neuronal Basis of Innate Olfactory Attraction to Ethanol in Drosophila. PLoS ONE 7(12): e52007
  3. Adamo SA (2013): Parasites: evolution's neurobiologists. J Exp Biol. 216(Pt 1):3-10. doi: 10.1242/jeb.073601.
  4. Suver MP, Mamiya A, Dickinson MH (2012): Octopamine Neurons Mediate Flight-Induced Modulation of Visual Processing in Drosophila. Curr Biol. 22(24): 2294-2302
  5. Sadaf S, Birman S, Hasan G (2012): Synaptic Activity in Serotonergic Neurons Is Required for Air-Puff Stimulated Flight in Drosophila melanogaster. PLoS ONE 7(9): e46405
  6. Herrera-Valdez MA, McKiernan EC, Berger SD, Ryglewski S, Duch C, Crook S (2012): Relating ion channel expression, bifurcation structure, and diverse firing patterns in a model of an identified motor neuron. J Comput Neurosci. 2012 Aug 11. [Epub ahead of print]
  7. Todorović D, Marković T, Prolić Z, Mihajlović S, Rauš S, Nikolić L, Janać B (2012): The influence of static magnetic field (50 mT) on development and motor behaviour of Tenebrio (Insecta, Coleoptera). Int J Radiat Biol. 89(1):44-50
  8. Selcho M, Pauls D, Jundi BE, Stocker RF, Thum AS (2012): The role of octopamine and tyramine in Drosophila larval locomotion. J Comp Neurol. 2012 May 24. doi: 10.1002/cne.23152
  9. Adamo SA (2012): Parasites - Evolution's neurobiologists. What have they learned after millions of years of evolution? Journal of Experimental Biology Symposium 2012, Tenuta Il Cicalino, Massa Marittima, Italy: 17–21 March 2012: http://jeb2012.biologists.com/PDF/Adamo.pdf
  10. Lehmann FO, Schutzner P, Wang, H (2012): Visual motion sensing and flight path control in flies. IN: Frontiers in Sensing: From Biology to Engineering. (Eds. F. Barth, P. Humphrey, M. Srinivasan) 129-141, ISBN: 978-3-211-99748-2
  11. Cossío-Bayúgar R, Miranda-Miranda E, Narváez Padilla V, Olvera-Valencia F, Reynaud E (2012): Perturbation of tyraminergic/octopaminergic function inhibits oviposition in the cattle tick Rhipicephalus (Boophilus) microplus. J Insect Physiol. 58(5):628-633
  12. Holden-Dye L, Walker RJ (2012): Report on the 12th symposium on invertebrate neurobiology held 31 August-4 September 2011 at the Balaton Limnological Research Institute of the Hungarian Academy of Sciences, Tihany, Hungary. Invert Neurosci. 12(1): 69-79
  13. Vonhoff F, Williams A, Ryglewski S, Duch C (2012): Drosophila as a Model for MECP2 Gain of Function in Neurons. PLoS ONE 7(2): e31835
  14. Banks CN, Adams ME (2011): Biogenic amines in the nervous system of the cockroach, Periplaneta americana following envenomation by the jewel wasp, Ampulex compressa. Toxicon. 59(2):320-328
  15. Pflüger HJ, Duch C (2011): Dynamic Neural Control of Insect Muscle Metabolism Related to Motor Behavior. Physiology 26:293-303
  16. Jung SN, Borst A, Haag J (2011): Flight activity alters velocity tuning of fly motion-sensitive neurons. J Neurosci. 31(25): 9231-9237
  17. Palmer CR, Kristan WB Jr. (2011): Contextual modulation of behavioral choice. Curr Opin Neurobiol. 21(4):520-526
  18. Stocker B (2011): Locust thoracic dorsal unpaired median (DUM) neurons: Differential activation and peripheral distribution of octopamine and tyramine. PhD Thesis, Freie Universität Berlin, Germany.
  19. Sinakevitch I, Mustard JA, Smith BH (2011): Distribution of the Octopamine Receptor AmOA1 in the Honey Bee Brain. PLoS ONE 6(1): e14536
  20. Longden KD, Krapp HG (2010): Octopaminergic modulation of temporal frequency coding in an identified optic flow-processing interneuron. Front. Syst. Neurosci. 4:153
  21. Yarali A, Gerber B (2010): A Neurogenetic Dissociation between Punishment-, Reward-, and Relief-Learning in Drosophila. Front Behav Neurosci. 4:189
  22. Zars T (2010): Short-term memories in Drosophila are governed by general and specific genetic systems. Learn. Mem. 17: 246-251
  23. Sitaraman D, Zars M, Zars T (2010): Place memory formation in Drosophila is independent of proper octopamine signaling. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 196(4):299-305
  24. Schnaitmann C, Vogt K, Triphan T and Tanimoto H (2010): Appetitive and aversive visual learning in freely moving Drosophila. Front. Behav. Neurosci. 4:10. doi:10.3389/fnbeh.2010.00010
  25. Maimon G, Straw AD, Dickinson MH (2010): Active flight increases the gain of visual motion processing in Drosophila. Nat Neurosci. 13(3):393-9
  26. Vierk R, Duch C, Pflüger HJ (2010): Postembryonic development of centrally generated flight motor patterns in the hawkmoth, Manduca sexta. J Comp Physiol A Neuroethol Sens Neural Behav Physiol 196(1): 37-50
  27. Longden KD, Krapp HG (2009): State-dependent performance of optic-flow processing interneurons. J Neurophysiol. 102(6):3606-3618
  28. Huang J, Ohta H, Inoue N, Takao H, Kita T, Ozoe F, Ozoe Y (2009): Molecular cloning and pharmacological characterization of a Bombyx mori tyramine receptor selectively coupled to intracellular calcium mobilization. Insect Biochem Mol Biol. 39(11):842-849
  29. Blumenthal EM (2009): Isoform- and cell-specific function of tyrosine decarboxylase in the Drosophila Malpighian tubule. J Exp Biol. 212(Pt 23):3802-3809
  30. Hesselberg T, Lehmann FO (2009): The role of experience in flight behaviour of Drosophila. J Exp Biol. 212(Pt 20):3377-3386.
  31. Westmark S, Oliveira EE, Schmidt J (2009): Pharmacological analysis of tonic activity in motoneurons during stick insect walking. J Neurophysiol. 102(2):1049-1061
  32. Peric-Mataruga V, Mircic D, Vlahovic M, Mrdakovic M, Todorovic D, Stevanovic D, Milosevic V. (2009): Effects of ghrelin on the feeding behavior of Lymantria dispar L. (Lymantriidae) caterpillars. Appetite. 53(1): 147-150.
  33. Pirri JK, McPherson AD, Donnelly JL, Francis MM, Alkema MJ (2009): A tyramine-gated chloride channel coordinates distinct motor programs of a Caenorhabditis elegans escape response. Neuron. 62(4):526-538.
  34. Lange AB (2009): Tyramine: from octopamine precursor to neuroactive chemical in insects. Gen Comp Endocrinol. 162(1):18-26
  35. Vierk R, Pflueger HJ, Duch C (2009): Differential effects of octopamine and tyramine on the central pattern generator for Manduca flight. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 195(3): 265-277
  36. Kononenko NL, Wolfenberg H, Pflüger H-J (2009): Tyramine as an independent transmitter and a precursor of octopamine in the locust central nervous system: An immunocytochemical study. J. comp. Neurol. 512: 433-452
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