Google Scholar citation statistics (including self-citations):
Papers:29
Citations:512
Years:15
Cites/year:34.13
Cites/author:237.34
Papers/author:16.23
h-index:12
g-index:22
hc-index:11
hI-index:4.24
hI-norm:8
AWCR:66.54
AW-index:8.16
AWCRpA:30.22
e-index:17.49
hm-index:6.78

Hirsch a=3.56, m=0.80
Contemporary ac=2.20
Cites/paper 17.66/7.0/2 (mean/median/mode)
Authors/paper 2.45/2.0/1 (mean/median/mode)

9 paper(s) with 1 author(s)
8 paper(s) with 2 author(s)
4 paper(s) with 3 author(s)
6 paper(s) with 4 author(s)
2 paper(s) with 5 author(s)

Citation statistics by hand (excluding self-citations)
Cited publications: 22
Citations: 456
h-index: 11

Brembs, B. (2009): Mushroom bodies regulate habit formation in Drosophila. Curr Biol. 19(16): 1351–1355.
Citations:

1. Abramson CI, Nolf SL, Mixson TA, Well H (2010): Can Honey Bees Learn the Removal of a Stimulus as a Conditioning Cue? Ethology 116: 1–12 doi: 10.1111/j.1439-0310.2010.01796.x
2. Zars T (2010): Short-term memories in Drosophila are governed by general and specific genetic systems. Learn. Mem. 17: 246-251
3. 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
4. van Swinderen, B. (2009): Fly Memory: A Mushroom Body Story in Parts. Curr Biol. 19(18): R855-R857

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. Zars T (2010): Short-term memories in Drosophila are governed by general and specific genetic systems. Learn. Mem. 17: 246-251
2. 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
3. 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. Zars T (2010): Short-term memories in Drosophila are governed by general and specific genetic systems. Learn. Mem. 17: 246-251
2. 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
3. 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
4. Maimon G, Straw AD, Dickinson MH (2010): Active flight increases the gain of visual motion processing in Drosophila. Nat Neurosci. 13(3):393-9
5. 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
6. Longden KD, Krapp HG (2009): State-dependent performance of optic-flow processing interneurons. J Neurophysiol. 102(6):3606-3618
7. 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
8. Blumenthal EM (2009): Isoform- and cell-specific function of tyrosine decarboxylase in the Drosophila Malpighian tubule. J Exp Biol. 212(Pt 23):3802-3809
9. Hesselberg T, Lehmann FO (2009): The role of experience in flight behaviour of Drosophila. J Exp Biol. 212(Pt 20):3377-3386.
10. Westmark S, Oliveira EE, Schmidt J (2009): Pharmacological analysis of tonic activity in motoneurons during stick insect walking. J Neurophysiol. 102(2):1049-1061
11. 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.
12. 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.
13. Lange AB (2009): Tyramine: from octopamine precursor to neuroactive chemical in insects. Gen Comp Endocrinol. 162(1):18-26
14. 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
15. 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
16. Socha R, Kodrík D, Zemek R. (2008): Stimulatory effects of bioamines norepinephrine and dopamine on locomotion of Pyrrhocoris apterus (L.): is the adipokinetic hormone involved? Comp Biochem Physiol B Biochem Mol Biol. 151(3):305-310
17. Duch C, Vonhoff F, Ryglewski S. (2008): Dendrite elongation and dendritic branching are affected separately by different forms of intrinsic motoneuron excitability. J Neurophysiol. 100(5):2525-2536
18. Buhl E, Schildberger K, Stevenson PA (2008): A muscarinic cholinergic mechanism underlies activation of the central pattern generator for locust flight. J Exp Biol. 211(Pt 14):2346-57.
19. Dierick HA. (2008): Fly fighting: octopamine modulates aggression. Curr Biol. 18(4):R161-163
20. Vömel M, Wegener C (2008): Neuroarchitecture of Aminergic Systems in the Larval Ventral Ganglion of Drosophila melanogaster. PLoS ONE 3(3): e1848
21. Ryglewski S (2008): Functional analysis of membrane properties in identified insect neurons: The roles of ionic currents for intracellular calcium signaling, intrinsic excitability and dendritic growth. Doctoral thesis , FU Berlin, Germany.

Maye, A.; Hsieh, C.; Sugihara, G. and Brembs, B. (2007): Order in spontaneous behavior. PLoS ONE 2(5): e443
Citations:

1. Tanimura Y, Yang MC, Ottens AK, Lewis MH (2010): Development and temporal organization of repetitive behavior in an animal model. Dev Psychobiol. 2010 Jul 6. DOI: 10.1002/dev.20477
2. Gardiner J, Overall R, Marc J (2010): The Fractal Nature of the Brain: EEG Data Suggests That the Brain Functions as a “Quantum Computer” in 5‐8 Dimensions. NeuroQuantology 2: 137‐141
3. He BJ, Zempel JM, Snyder AZ, Raichle ME (2010): The temporal structures and functional significance of scale-free brain activity. Neuron. 66(3):353-369
4. Stewart FJ, Baker DA, Webb B (2010): A model of visual-olfactory integration for odour localisation in free-flying fruit flies. J Exp Biol. 213(11):1886-1900
5. Gal R, Libersat F (2010): A Wasp Manipulates Neuronal Activity in the Sub-Esophageal Ganglion to Decrease the Drive for Walking in Its Cockroach Prey. PLoS ONE 5(4): e10019
6. Frye MA (2010): Multisensory systems integration for high-performance motor control in flies. Curr Opin Neurobiol. 20 (3): 347-352
7. Hong YY, Velegol D, Chaturvedi, N, Sen, A (2010): Biomimetic behavior of synthetic particles: from microscopic randomness to macroscopic control. Phys. Chem. Chem. Phys. 12(7): 1423-1435
8. Kagaya K, Takahata m (2010): Readiness Discharge for Spontaneous Initiation of Walking in Crayfish. J Neurosci. 30(4):1348-1362
9. Nurzaman SG, Matsumoto Y, Nakamura Y, Koizumi S, Ishiguro H (2009): Biologically inspired adaptive mobile robot search with and without gradient sensing. Proceedings of the 2009 IEEE/RSJ international conference on Intelligent robots and systems, St. Louis, MO, USA Pages: 142-147
10. Remy SL (2009): How to teach a new robot new tricks-an interactive learning framework applied to service robotics. PhD Dissertation, Georgia Institute of Technology, USA
11. Abidin ZZ, Arshad MR, Ngah UK (2009): A Survey: Animal-Inspired Metaheuristic Algorithms. 2nd Postgraduate Colloquium School of Electrical & Electronic USM, EEPC 2009, Bukit Jawi Golf Resort, 2nd November 2009
12. Stewart FJ (2009): Modelling visual-olfactory integration in free-flying Drosophila. PhD dissertation, University of Edinburgh, UK
13. Koch C (2009): Free Will, Physics, Biology, and the Brain. In: Understanding Complex Systems: Downward Causation and the Neurobiology of Free Will. (Springer Berlin / Heidelberg); 31-52. ISBN: 978-3-642-03204-2
14. Bartumeus F Catalan J (2009): Optimal search behavior and classic foraging theory. J Phys A: Math Theor. 42(43): 434002
15. Chechkin, AV, Hofmann, M,; Sokolov, IM (2009): Continuous-time random walk with correlated waiting times Phys Rev. E 80 (3): Art. No. 031112 Part 1
16. Chow DM, Frye MA (2009): The neuro-ecology of resource localization in Drosophila: behavioral components of perception and search. Fly (Austin). 3(1):50-61
17. Yanagawa T, Mogi K. (2009): Analysis of ongoing dynamics in neural networks. Neurosci Res. 64(2):177-184.
18. Steven Shaviro (2009): Without Criteria: Kant, Whitehead, Deleuze, and Aesthetics (Cambridge: MIT Press).
19. Ryser, P (2009): Creative Choice: How the Mind could Causally Affect the Brain. J Consc Stud. 16(2-3): 6-29
20. Bartumeus F (2009): Behavioral intermittence, Lévy patterns, and randomness in animal movement. Oikos. 118(4): 488-494
21. Krstic D, Boll W, Noll M (2009): Sensory integration regulating male courtship behavior in Drosophila. PLoS ONE. 4(2):e4457
22. Vacariu G (2008): Epistemologicallky different worlds. Editura Universitatii din Bucuresti, ISBN 978-973-737-442-4
23. Bartumeus F, Levin SA (2008): Fractal reorientation clocks: Linking animal behavior to statistical patterns of search. Proc Natl Acad Sci U S A. 105(49):19072-19077
24. Dees ND, Bahar S, Moss F (2008): Stochastic resonance and the evolution of Daphnia foraging strategy. Phys. Biol. 5: 1-6
25. Chikamoto K, Kagaya K, Takahata M (2008): Electromyographic Characterization of Walking Behavior Initiated Spontaneously in Crayfish. Zool. Sci. 25(8): 783–792
26. Takahashi H, Horibe N, Ikegami T, Shimada M (2008): Analyzing house fly's exploration behavior with autoregression methods. J. Phys. Soc. Jpn. 77(8): 084802
27. Schoppik D, Nagel KI, Lisberger SG (2008): Cortical Mechanisms of Smooth Eye Movements Revealed by Dynamic Covariations of Neural and Behavioral Responses. Neuron 58, 248–260
28. Meixner U (2008): New Perspectives for a Dualistic Conception of Mental Causation. J. Consc. Stud. 15(1): 17-38
29. Artzy-Randrup Y, Bartumeus F, Mahoney J (2007): Human Random Search Strategies in a Soccer Field. Paper presented at the 2007 Complex Systems Summer School, Santa Fe.
30. Paixão T (2007): The Stochastic Basis of Somatic Variation. Doctoral thesis, University of Porto, Portugal.
31. Hong Y, Blackman NMK, Kopp ND, Sen A, Velegol D (2007): Chemotaxis of Nonbiological Colloidal Rods. Phys. Rev. Let. 99, 178103
32. Niven JE (2007): Ghost in the machine? J. exp. Biol. 210(19): V

Brembs B, Hempel de Ibarra N. (2006): Different parameters support generalization and discrimination learning in Drosophila at the flight simulator. Learn Mem. 13(5): 629-637
Citations:

1. Casimir MJ (2009): On the Origin and Evolution of Affective Capacities in Lower Vertebrates. In: Böttger-Rössler B, Markowitsch HJ (eds.) Emotions as Bio-cultural Processes, p. 1-39. Springer, New York, DOI: 10.1007/978-0-387-09546-2_4
2. Niggebrügge, C (2008): Untersuchungen zum Farbensehen und Farbenlernen der Honigbiene (Apis mellifera): vom Photorezeptor zum Verhalten. Doctoral thesis , FU Berlin, Germany.
3. Peng Y, Xi W, Zhang W, Zhang K, Guo A (2007): Experience Improves Feature Extraction in Drosophila. J. Neurosci. 27:5139-5145

Brembs B. and Wiener J. (2006): Context and occasion setting in Drosophila visual learning. Learn. Mem. 13(5): 618-628
Citations:

1. Lau HL (2010): Chemosensory context conditioning in Ceanorhabditis elegans. MSc dissertation, The University of British Columbia
2. Dunlap-Lehtilä AS (2009): Change and Reliability in the Evolution of Learning and Memory. PhD dissertation, University of Minnesota
3. Casimir MJ (2009): On the Origin and Evolution of Affective Capacities in Lower Vertebrates. In: Böttger-Rössler B, Markowitsch HJ (eds.) Emotions as Bio-cultural Processes, p. 1-39. Springer, New York, DOI: 10.1007/978-0-387-09546-2_4
4. van Swinderen B, McCartney A, Kauffman S, Flores K, Agrawal K, Wagner J, Paulk A (2009): Shared Visual Attention and Memory Systems in the Drosophila Brain. PLoS ONE 4(6): e5989.
5. Seugnet L, Suzuki Y, Stidd R, Shaw PJ. (2009): Aversive Phototaxic Suppression: evaluation of a short-term memory assay in Drosophila melanogaster. Genes Brain Behav. 8(4): 377-389
6. Bueno JL, Holland PC (2008): Occasion setting in Pavlovian ambiguous target discriminations. Behav Processes. 79(3):132-147
7. Tanaka NK, Tanimoto H, Ito K. (2008): Neuronal assemblies of the Drosophila mushroom body. J Comp Neurol. 508(5):711-755.
8. van Swinderen B. (2007): Attention-like processes in Drosophila require short-term memory genes. Science. 315(5818):1590-1593
9. Peng Y, Xi W, Zhang W, Zhang K, Guo A (2007): Experience Improves Feature Extraction in Drosophila. J. Neurosci. 27:5139-5145

Menzel R.; Brembs, B. and Giurfa M. (2006): Cognition in Invertebrates. In: Kaas, J.H. (ed.) Evolution of Nervous Systems. Academic Press, Oxford ; pp. 403-442
Citations:

1. Abramson CI, Nolf SL, Mixson TA, Well H (2010): Can Honey Bees Learn the Removal of a Stimulus as a Conditioning Cue? Ethology 116: 1–12 doi: 10.1111/j.1439-0310.2010.01796.x
2. Bar-Shai N, Keasar T, Shmida A (2010): The use of numerical information by bees in foraging tasks. Center for the study of rationality - Hebrew University of Jerusalem, Discussion Paper # 555 June 2010
3. Tomina Y, Takahata M. (2010): A behavioral analysis of force-controlled operant tasks in American lobster. Physiol Behav. 2010 Apr 29. [Epub ahead of print]
4. Carazo P, Font E, Forteza-Behrendt E, Desfilis E (2009): Quantity discrimination in Tenebrio molitor: evidence of numerosity discrimination in an invertebrate? Anim Cogn. 12(3):463-470
5. Garzón PC, Keijzer F (2009): Cognition in plants. In: F. Baluška (Ed.) Plant – environment interactions: Behavioral perspective. Elsevier.
6. Menzel R. (2009): Serial position learning in honeybees. PLoS ONE 4(3): e4694.
7. Platt M, Dayan P, Dehaene S, McCabe K, Menzel R, Phelps E, Plassmann H, Ratcliff R, Shadlen M, Singer W (2008): Neuronal correlates of decision making. In: Engel C and Singer W (Eds.) Better Than Conscious? Decision Making, the Human Mind, and Implications For Institutions. MIT Press
8. Menzel R. (2008): Insect minds for human minds. In: Benjamin AS, de Belle JS, Etnyre B, Polk TA(eds.) Human Learning, pp. 271-285, Elsevier
9. Menzel R. (2007): Electrophysiology and Optophysiology of Complex Brain Functions in Insects. In: North G and Greenspan RJ (eds.) Invertebrate Neurobiology, pp. 53-78, CSHL Press.
10. Okada R, Rybak J, Manz G, Menzel R. (2007): Learning-related plasticity in PE1 and other mushroom body-extrinsic neurons in the honeybee brain. J Neurosci. 27(43):11736-11747.
11. van Duijn M, Keijzer F, Franken D (2006): Principles of minimal cognition: Casting cognition as sensorimotor coordination. Adapt. Behav. 14 (2): 157-170

Phillips A.M.; Smart R.; Strauss R.; Brembs B. and Kelly L.E. (2005): The Drosophila black enigma: the molecular and behavioural characterization of the black¹ mutant allele. Gene 351:131-142
Citations:

1. Gallot A, Rispe C, Leterme N, Gauthier JP, Jaubert-Possamai S, Tagu D (2010): Cuticular proteins and seasonal photoperiodism in aphids. Insect Biochem Mol Biol. 40(3):235-240
2. Richardson G, Ding H, Rocheleau T, Mayhew G, Reddy E, Han Q, Christensen BM, Li J (2009): An examination of aspartate decarboxylase and glutamate decarboxylase activity in mosquitoes. Mol Biol Rep. [Epub ahead of print]
3. Le Trionnaire G, Francis F, Jaubert-Possamai S, Bonhomme J, De Pauw E, Gauthier JP, Haubruge E, Legeai F, Prunier-Leterme N, Simon JC, Tanguy S, Tagu D (2009): Transcriptomic and proteomic analyses of seasonal photoperiodism in the pea aphid. BMC Genomics 10:456
4. Arakane Y, Lomakin J, Beeman RW, Muthukrishnan S, Gehrke SH, Kanost MR, Kramer KJ (2009): Molecular and Functional Analyses of Amino Acid Decarboxylases Involved in Cuticle Tanning in Tribolium castaneum. J Biol Chem. 284(24):16584-16594
5. Davis MM, Primrose DA, Hodgetts RB (2008): A member of the p38 mitogen-activated protein kinase family is responsible for transcriptional induction of Dopa decarboxylase in the epidermis of Drosophila melanogaster during the innate immune response. Mol Cell Biol. 28(15):4883-4895.
6. Stuart AE, Borycz J, Meinertzhagen IA (2007): The dynamics of signaling at the histaminergic photoreceptor synapse of arthropods. Prog Neurobiol. 82(4):202-227

Brembs B.; Baxter D.A. and Byrne J.H. (2004): Extending In Vitro Conditioning in Aplysia to Analyze Operant and Classical Processes in the Same Preparation. Learn. Mem. 11: 412-420.
Citations:

1. Katzoff A, Miller N, Susswein AJ (2009): Nitric oxide and histamine signal attempts to swallow: A component of learning that food is inedible in Aplysia. Learn Mem. 17(1):839-851
2. Grasso FW, Basil JA (2009): The evolution of flexible behavioral repertoires in cephalopod molluscs. Brain Behav Evol. 74(3):231-245
3. Tomsic D, de Astrada MB, Sztarker J, Maldonado H. (2009): Behavioral and neuronal attributes of short- and long-term habituation in the crab Chasmagnathus. Neurobiol Learn Mem. 92(2):176-182
4. Jing J, Vilim FS, Cropper EC, Weiss KR (2008): Neural analog of arousal: persistent conditional activation of a feeding modulator by serotonergic initiators of locomotion. J Neurosci. 28(47):12349-12361.
5. Nargeot R, Petrissans C, Simmers J. (2007): Behavioral and in vitro correlates of compulsive-like food seeking induced by operant conditioning in Aplysia. J Neurosci. 27(30): 8059-8070
6. Silva MTA, Goncalves FL, Garcia-Mijares M (2007): Neural events in the reinforcement contingency. Behav. Anal. 30(1): 17-30
7. Krylov AK, Aleksandrov YI (2007): "Situatedness in an environment" as alternative to stimuli presentation: Model study. Psykhologicheskii Zhurnal 28(2): 106-113
8. Wright JW, Olson ML, Harding JW (2006): The role of the brain angiotensin system in learning, memory and neural plasticity. In: Trends in Learning Research (ed.: Hogan SH). Nova Publishers, pp. 1-39
9. Baxter DA, Byrne JH (2006): Feeding behavior of Aplysia: A model system for comparing cellular mechanisms of classical and operant conditioning. Learn. Mem. 13: 669-680
10. Goel P, Gelperin A. (2006): A neuronal network for the logic of Limax learning. J Comput Neurosci. 21(3):259-270
11. Katzoff A, Ben-Gedalya T, Hurwitz I, Miller N, Susswein YZ, Susswein AJ. (2006): Nitric oxide signals that aplysia have attempted to eat, a necessary component of memory formation after learning that food is inedible. J Neurophysiol. 96(3):1247-1257
12. Diaz-Rios M, Miller MW (2006): Target-specific regulation of synaptic efficacy in the feeding central pattern generator of Aplysia: potential substrates for behavioral plasticity? Biol Bull. 210(3):215-29.
13. Hawkins RD, Clark, GA, Kandel, ER (2006): Operant Conditioning of Gill Withdrawal in Aplysia. J. Neurosci. 26(9):2443-2448
14. Agin V, Chichery R, Dickel L, Chichery MP. (2006): The "prawn-in-the-tube" procedure in the cuttlefish: habituation or passive avoidance learning? Learn Mem. 13(1):97-101
15. Jezzini SH, Bodnarova M, Moroz LL. (2005): Two-color in situ hybridization in the CNS of Aplysia californica. J Neurosci Methods. 149(1): 15-25
16. Reyes FD, Mozzachiodi R, Baxter DA, Byrne JH (2005): Reinforcement in an in vitro analog of appetitive classical conditioning of feeding behavior in Aplysia: Blockade by a dopamine antagonist. Learn. Mem. 12: 216-220
17. Zhurov Y, Proekt A, Weiss KR, Brezina V. (2005): Changes of internal state are expressed in coherent shifts of neuromuscular activity in Aplysia feeding behavior. J Neurosci. 25(5): 1268-1280.

Brembs, B (2003): Operant Conditioning in Invertebrates. Curr. Opin. Neurobiol. 13(6): 710-717.
Citations:

1. Tomina Y, Takahata M. (2010): A behavioral analysis of force-controlled operant tasks in American lobster. Physiol Behav. 2010 Apr 29. [Epub ahead of print]
2. Sokolowski MBC, Disma G, Abramson CI (2010): A paradigm for operant conditioning in Blow Flies (Phormia terrae novae Robineau-Desvoidy, 1830). J exp. Anal. Behav. 93 (1): 81-89
3. Dayan P, Huys QJ. (2009): Serotonin in Affective Control. Annu Rev Neurosci. 32: 95-126
4. Khan AM, Spencer GE (2009): Novel neural correlates of operant conditioning in normal and differentially reared Lymnaea. J Exp Biol. 212(Pt 7):922-933
5. Pitman JL, Dasgupta S, Krashes MJ, Leung B, Perrat PN, Waddell S. (2009): There are many ways to train a fly. Fly (Austin). 3(1): 3-9
6. Vandersal ND (2008): Rapid spatial learning in a velvet ant (Dasymutilla coccineohirta). Anim Cogn. 11(3):563-567
7. Lukowiak K, Martens K, Rosenegger D, Browning K, de Caigny P, Orr M (2008): The perception of stress alters adaptive behaviours in Lymnaea stagnalis. J Exp Biol. 211(Pt 11):1747-1756.
8. VanderSal ND, Hebets EA. (2007): Cross-modal effects on learning: a seismic stimulus improves color discrimination learning in a jumping spider. J Exp Biol. 210(Pt 20):3689-3695.
9. Henry F, Dauce E, Soula H (2007): Temporal pattern identification using spike-timing dependent plasticity. Neurocomp. 70(10-12): 2009-2016
10. Kim YC, Lee HG, Han KA. (2007): Classical reward conditioning in Drosophila melanogaster. Genes Brain Behav. 6(2):201-207
11. Daucé E, Henry F (2006): Hebbian learning in large recurrent neural networks. Paper presented at NeuroComp 2006, 202
12. Dupuy F, Sandoz JC, Giurfa M, Josens R (2006): Individual olfactory learning in Camponotus ants. Anim. Behav. 72: 1081-1091
13. Baxter DA, Byrne JH (2006): Feeding behavior of Aplysia: A model system for comparing cellular mechanisms of classical and operant conditioning. Learn. Mem. 13: 669-680
14. Aragona BJ, Carelli RM. (2006): Dynamic neuroplasticity and the automation of motivated behavior. Learn Mem. 13(5):558-559
15. Hawkins RD, Clark, GA, Kandel, ER (2006): Operant Conditioning of Gill Withdrawal in Aplysia. J. Neurosci. 26(9):2443-2448
16. Barbas D, Zappulla JP, Angers S, Bouvier M, Mohamed HA, Byrne JH, Castellucci VF, Desgroseillers L. (2006): An aplysia dopamine-like receptor: molecular and functional characterization. J Neurochem. 96(2):414-427
17. Burggren WW, Monticino MG. (2005): Assessing physiological complexity.J Exp Biol. 208(17): 3221-3232.
18. Reyes FD, Mozzachiodi R, Baxter DA, Byrne JH (2005): Reinforcement in an in vitro analog of appetitive classical conditioning of feeding behavior in Aplysia: Blockade by a dopamine antagonist. Learn. Mem. 12: 216-220
19. Manev H, Dimitrijevic N. (2005): Fruit flies for anti-pain drug discovery. Life Sci. 76(21):2403-7.
20. Dacher M (2005): Role des recepteurs nicotiniques dans differentes formes de memoire chez l'abeille Apis mellifera. Doctoral thesis, Université de Toulouse, Paul Sabatier, France
21. Demirci S, Esel E (2004): The biological mechanisms of learning and memory, and their relationships with psychiatric disorders. Anatol. J. Psych. 5:239-248

Brembs, B (2003): Operant Reward Learning in Aplysia. Curr. Dir. Psych. Sci. 12 (6): 218-221.
Citations:

1. Casimir MJ (2009): On the Origin and Evolution of Affective Capacities in Lower Vertebrates. In: Böttger-Rössler B, Markowitsch HJ (eds.) Emotions as Bio-cultural Processes, p. 1-39. Springer, New York, DOI: 10.1007/978-0-387-09546-2_4
2. Baxter DA, Byrne JH (2006): Feeding behavior of Aplysia: A model system for comparing cellular mechanisms of classical and operant conditioning. Learn. Mem. 13: 669-680
3. Goldman MS, Darkes J, Reich RR, Brandon KO (2006): From DNA to conscious thought: The influence of anticipatory processes on human alcohol consumption. In: Munafò M, Albery IP (Eds) Cognition and addiction. (pp. 147-184). New York, NY, US: Oxford University Press. x, 307 pp.
4. Reich RR, Noll JA, Goldman MS. (2005): Cue patterns and alcohol expectancies: how slight differences in stimuli can measurably change cognition. Exp Clin Psychopharmacol. 13(1): 65-71.

Brembs B.; Lorenzetti F.D.; Reyes F.D.; Baxter D.A. and Byrne J.H. (2002): Operant Reward Learning in Aplysia: Neuronal Correlates and Mechanisms. Science 296: 1706-1709.
Citations:

1. Wu JS, Vilim FS, Hatcher NG, Due MR, Sweedler JV, Weiss KR, Jing J. (2010): A Composite Modulatory Feedforward Loop Contributes to the Establishment of a Network State. J Neurophysiol. 2010 Feb 24. [Epub ahead of print]
2. Mozzachiodi R, Byrne JH (2010): More than synaptic plasticity: role of nonsynaptic plasticity in learning and memory. Trends Neurosci. 33 (1): 17-26
3. Katzoff A, Miller N, Susswein AJ (2009): Nitric oxide and histamine signal attempts to swallow: A component of learning that food is inedible in Aplysia. Learn Mem. 17(1):839-851
4. Casimir MJ (2009): On the Origin and Evolution of Affective Capacities in Lower Vertebrates. In: Böttger-Rössler B, Markowitsch HJ (eds.) Emotions as Bio-cultural Processes, p. 1-39. Springer, New York, DOI: 10.1007/978-0-387-09546-2_4
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