Kemenes Lab

Publications

Publications by Professor George Kemenes

1. Articles in peer-reviewed journals

  1. Crossley M, Staras K*, Kemenes G*. (2018) A central control circuit for encoding perceived food value. Sci Adv. 4(11):eaau9180. *Joint senior authors
  2. Zhang L, Khattar N, Kemenes I, Kemenes G, Zrinyi Z, Pirger Z, Vertes A. (2018) Subcellular peptide localization in single identified neurons by Capillary Microsampling Mass Spectrometry. Sci Rep. 15;8(1):12227.
  3. Roshchin MV, Matlashov ME, Ierusalimsky VN, Balaban PM, Belousov VV, Kemenes G*, Staras K*, Nikitin ES*. (2018) A BK channel-mediated feedback pathway links single-synapse activity with action potential sharpening in repetitive firing. Sci Adv. 4:eaat1357. *Joint senior authors
  4. Korneev SA, Vavoulis DV, Naskar S, Dyakonova VE, Kemenes I, Kemenes G. (2018) A CREB2-targeting microRNA is required for long-term memory after single-trial learning. Sci Rep. 8:3950.
  5. Ford L, Crossley M, Vadukul DM, Kemenes G*, Serpell LC*. (2017) Structure dependent effects of Amyloid-β on long-term memory in Lymnaea stagnalis. FEBS Lett. 1236-1246. *Joint senior authors
  6. Crossley M, Staras K*, Kemenes G*. (2016) A two-neuron system for adaptive goal-directed decision making in Lymnaea. Nat Commun 7:11793. *Joint senior authors
  7. Marshall KE, Vadukul DM, Dahal L, Theisen A, Fowler MW, Al-Hilaly Y, Ford L, Kemenes G, Day IJ, Staras K, Serpell LC. (2016) A critical role for the self-assembly of Amyloid-β1-42 in neurodegeneration. Sci Rep. 6:30182.
  8. Ford L, Crossley M, Williams T, Thorpe JR, Serpell LC, Kemenes G. (2015) Effects of Abeta exposure on long-term associative memory and its neuronal mechanisms in a defined neuronal network. Sci Rep. 5:10614.
  9. Scutt G, Allen M, Kemenes G, Yeoman M. (2015) A switch in the mode of the sodium/calcium exchanger underlies an age-related increase in the slow afterhyperpolarization. Neurobiol Aging 36:2838-2849.
  10. Naskar S, Wan H, Kemenes G. (2014) pT305-CaMKII stabilizes a learning-induced increase in AMPA receptors for ongoing memory consolidation after classical conditioning. Nat Commun. 5:3967.
  11. Pirger Z, Crossley M, László Z, Naskar S, Kemenes G, O'Shea M, Benjamin PR, Kemenes I. (2014) Interneuronal mechanism for Tinbergen's hierarchical model of behavioral choice. Curr Biol. 24:2018-2024.
  12. Pirger Z, Naskar S, László Z, Kemenes G, Reglodi D, Kemenes I. (2014) Reversal of age-related learning deficiency by the vertebrate PACAP and IGF-1 in a novel invertebrate model of aging: the pond snail (Lymnaea stagnalis). J Gerontol A Biol Sci Med Sci. 69:1331-1338.
  13. Nikitin ES, Balaban PM, Kemenes G (2013) Nonsynaptic plasticity underlies a compartmentalized increase in synaptic efficacy after classical conditioning. Curr Biol. 23:614-9.
  14. Korneev SA, Kemenes I, Bettini NL, Kemenes G, Staras K, Benjamin PR, O’Shea M (2013) Axonal trafficking of an antisense RNA transcribed from a pseudogene is regulated by classical conditioning. Sci Rep, 3, 1027:1-5.
  15. Kemenes G (2013) Molecular and Cellular Mechanisms of Classical Conditioning in the Feeding System of Lymnaea. In: Invertebrate Learning and Memory (eds. Randolf Menzel and Paul R. Benjamin), Handbook of Behavioural Neuroscience (ed. Joseph P. Huston). San Diego: Academic Press, pp. 251-264.
  16. Samu D, Marra V, Kemenes I, Crossley M, Kemenes G, Staras K, Nowotny T. (2012) Single electrode dynamic clamp with StdpC. J Neurosci Methods. 211:11-21.
  17. Harris CA, Buckley CL, Nowotny T, Passaro PA, Seth AK, Kemenes G*, O'Shea M* (2012) Multi-neuronal refractory period adapts centrally generated behaviour to reward. PLoS One. 7(7):e42493. *Joint senior authors
  18. Kemenes I, Marra V, Crossley M, Samu D, Staras K, Kemenes G, Nowotny T. (2011) Dynamic clamp with StdpC software. Nat Protoc. 6:405-17.
  19. Pirger Z, László Z, Kemenes I, Tóth G, Reglodi D, Kemenes G (2010) A homolog of the vertebrate pituitary adenylate cyclase-activating polypeptide is both necessary and instructive for the rapid formation of associative memory in an invertebrate. J Neurosci. 30:13766-73.
  20. Benjamin PR, Staras K, Kemenes G (2010) What roles do tonic inhibition and disinhibition play in the control of motor programs? Frontiers in Behavioral Neuroscience 4:30.
  21. Vavoulis DV, Nikitin ES, Kemenes I, Marra V, Feng J, Benjamin PR, Kemenes G (2010) Balanced plasticity and stability of the electrical properties of a molluscan modulatory interneuron after classical conditioning: a computational study. Frontiers in Behavioral Neuroscience, 4:19.
  22. Pirger Zs, Laszlo Z, Hiripi L, Toth G, Lubics A, Reglodi D, Kemenes G, Mark L (2010) Pituitary adenylate cyclase activating polypeptide (PACAP) and its receptors are present and biochemically active in the central nervous system of the pond snail Lymnaea stagnalis. J Mol Neurosci, 42(3):464-71.
  23. Wan H, Mackay B, Iqbal H, Naskar S, Kemenes G (2010) Delayed intrinsic activation of an NMDA-independent CaM-kinase II in a critical time window is necessary for late consolidation of an associative memory. J Neurosci. 30:56-63.
  24. Harris CA, Passaro PA, Kemenes I, Kemenes G, O'Shea M. (2010) Sensory driven multi-neuronal activity and associative learning monitored in an intact CNS on a multielectrode array. J Neurosci Methods. 186:171-8.
  25. Kemenes G. (2009) Behavioral choice: a novel role for presynaptic inhibition of sensory inputs. Current Biology 19:R1087-8.
  26. Kiss T, Pirger Z, Kemenes G (2009) Food-aversive classical conditioning increases a persistent sodium current in molluscan withdrawal interneurons in a transcription dependent manner. Neurobiol Learn Mem. 92:114-9.
  27. Kemenes G (2009) Learning and Memory: How sea slug behaviours become compulsive. Current Biology, 19:R515-517.
  28. Kemenes G, Benjamin PR. (2009) Lymnaea. Current Biology 19:R9-11.
  29. NikitinES, Vavoulis DV, Kemenes I, MarraV, PirgerZ, MichelM, FengJ, O’SheaM, Benjamin PR and KemenesG (2008) Persistent sodium current is a non-synaptic substrate for long-term associative memory. Current Biology 8:1221-6.
  30. Michel M, Kemenes I, Müller U, KemenesG (2008) Different phases of long-term memory require distinct temporal patterns of PKA activity after single-trial classical conditioning. Learning & Memory 15:694-702.
  31. Benjamin, PR, Kemenes, G, Kemenes I (2008) Non-synaptic neuronal mechanisms of learning and memory in gastropod molluscs. Frontiers in Bioscience 13:4051-4057.
  32. Vavoulis D, Straub V, Kemenes I, Kemenes G, Feng J, Benjamin PR (2007) Dynamic control of a central pattern generator circuit: a computational model of the snail feeding network. Eur J Neurosci. 25:2805-2818.
  33. Nikitin ES, Kiss T, Staras K, O'Shea M, Benjamin PR, Kemenes G (2006) Persistent sodium current is a target for cAMP-induced neuronal plasticity in a state-setting modulatory interneuron. J Neurophysiol. 95:453-463. 
  34. KemenesG, KemenesI, MichelM, PappA, Müller U (2006) Phase-dependent molecular requirements for memory reconsolidation: differential roles for protein synthesis and PKA activity. J Neurosci. 26:6298-6302.
  35. Kemenes I, Straub VA, Nikitin ES, Staras K, O’Shea M, Kemenes G*, Benjamin PR* (2006) Role of delayed non-synaptic neuronal plasticity in long-term associative memory. Current Biology. 16: 1269-1279. *Joint senior authors
  36. Hatakeyama D, Sadamoto H, Watanabe T, Wagatsuma A, Kobayashi S, Fujito Y, Yamashita M, Sakakibara M, Kemenes G, Ito E. (2006) Requirement of new protein synthesis of a transcription factor for memory consolidation: paradoxical changes in mRNA and protein levels of C/EBP. J Mol Biol. 356:569-77.
  37. Ribeiro MJ, Schofield MG, Kemenes I, O'Shea M, Kemenes G, Benjamin PR. (2005) Activation of MAPK is necessary for long-term memory consolidation following food-reward conditioning. Learn Mem. 12:538-45.
  38. Nikitin ES, Zakharov IS, Samarova EI, Kemenes G, Balaban PM. (2005) Fine tuning of olfactory orientation behaviour by the interaction of oscillatory and single neuronal activity. Eur J Neurosci. 22:2833-44.
  39. Ribeiro MJ, Serfozo Z, Papp A, Kemenes I, O'Shea M, Yin JC, Benjamin PR, Kemenes G. (2003) Cyclic AMP response element-binding (CREB)-like proteins in a molluscan brain: cellular localization and learning-induced phosphorylation. Eur J Neurosci. 18:1223-1234.
  40. Staras K, Kemenes I, Benjamin PR, Kemenes G (2003) Loss of self-inhibition is a cellular mechanism for episodic rhythmic behavior. Curr Biol. 13:116-124.
  41. Jones NG, Kemenes I, Kemenes G, Benjamin PR. (2003) A persistent cellular change in a single modulatory neuron contributes to associative long-term memory. Curr Biol. 13:1064-1069.
  42. K. Staras, J. Győri and G. Kemenes (2002) Voltage-gated ionic currents in an identified modulatory cell type controlling molluscan feeding. Eur. J. Neurosci. 15, 109-119.
  43. V.A. Straub, K. Staras, G. Kemenes and P.R. Benjamin (2002) Endogenous and network properties of Lymnaea feeding central pattern generator interneurons. J. Neurophysiol.  88, 1569-1583. 
  44. S.A. Korneev, I. Kemenes, V. Straub, K. Staras, E.I. Korneeva, G. Kemenes, P.R. Benjamin and M. O’Shea  (2002) Suppression of an NO-dependent behavior by dsRNA-mediated silencing of a nNOS gene. J. Neurosci. 22, RC227 (1–5).
  45. Kemenes, G. Kemenes, R.J. Andrew, P.R. Benjamin & M. O’Shea (2002) Critical time-window for NO-cGMP dependent long-term memory formation after one-trial appetitive conditioning. J. Neurosci. 22, 1414-1425.
  46. Z. Serfőző, Z. Veréb, J. T. Rőszer, G. Kemenes and K. Elekes (2002) Development of the nitric oxide/cGMP system in the embryonic and juvenile pond snail, Lymnaea stagnalis L. A comparative in situ hybridization, histochemical and immunohistochemical study.  J. Neurocytol. 31, 131–147. 
  47. G. Kemenes, K. Staras & P.R. Benjamin (2001) Multiple types of control by identified interneurons in a sensory-activated rhythmic motor pattern. J. Neurosci. 21, 2903-2911.
  48. N.G. Jones, G. Kemenes & P.R. Benjamin (2001) Selective expression of electrical correlates of differential appetitive classical conditioning in a feeding network. J. Neurophysiol. 85, 89-97. 
  49. P.R. Benjamin, K. Staras & G. Kemenes (2000) A systems approach to the cellular analysis of associative learning in the pond snail Lymnaea. Learn Mem. 7, 124-131.
  50. G. Kemenes (1999) Cellular analysis of appetitive learning in invertebrates. Acta Biol. Hung. 50, 117-29.
  51. K. Staras, G. Kemenes, & P. R. Benjamin (1999) Electrophysiological and behavioral analysis of lip touch as a component of the food stimulus in the snail Lymnaea. J. Neurophysiol. 81, 1261-1273. 
  52. K. Staras, G. Kemenes & P.R. Benjamin (1999) Cellular traces of behavioral classical conditioning can be recorded at several specific sites in a simple nervous system. J. Neurosci. 19, 347-357. 
  53. S.J. Perry, V.A. Straub, G. Kemenes, N. Santama, B. M. Worster, J.F. Burke & P.R. Benjamin (1998) Neural modulation of gut motility by the myomodulin peptides and acetylcholine in the snail Lymnaea. J. Neurophysiology. 79, 2460-2474. 
  54. G. Kemenes,  K. Staras, & P.R. Benjamin (1998) Pattern-generating function for motoneurons in the feeding system of the pond snail Lymnaea. Eur. J. Neurosci. 10, S10, 163.  
  55. K. Staras, G. Kemenes & P.R. Benjamin (1998) Neurophysiological correlates of unconditioned and conditioned feeding behavior in the pond snail Lymnaea stagnalis. J. Neurophysiol. 79, 3030-3040.
  56. K. Staras, G. Kemenes & P.R. Benjamin (1998) Pattern-generating role for motoneurons in a rhythmically active neuronal network. J. Neurosci. 18, 3669-3688.
  57. G. Kemenes, K. Staras & P.R. Benjamin (1997) In vitro appetitive classical conditioning of the feeding response in the pond snail Lymnaea stagnalis. J. Neurophysiol. 78, 2351-2362.
  58. G. Kemenes (1997) Distributed processing of sensory information and modulation by feedback from motoneurones in the feeding network of Lymnaea stagnalis. Neurobiology 5, 162-163.
  59. G. Kemenes (1997) In vivo neuropharmacological and in vitro laser ablation techniques as tools in the analysis of neuronal circuits underlying behaviour in a molluscan model system. Gen. Pharmacol. 29, 7-15. (invited review)
  60. M.R. Elphick, G. Kemenes, K. Staras & M. O'Shea (1995) Behavioral role for nitric oxide in chemosensory activation of feeding in a mollusc. J. Neurosci. 15, 7653-7664. 
  61. D.O. Carpenter, G. Kemenes, K. Elekes, M.Leung, G. Stefano, K.S.-Rózsa & J. Salánki (1995) Opioid peptides in the nervous system of Aplysia - a combined biochemical, immunocytochemical and electrophysiological study. Cell. Mol. Neurobiol. 15, 239-256. 
  62. M.S. Yeoman, Á. Vehovszky, G. Kemenes,  C.J.H. Elliott & P.R. Benjamin (1995) A novel interneuron having hybrid modulatory-central pattern generator properties in the feeding system of the snail Lymnaea stagnalis. J. Neurophysiol. 73, 112-124. 
  63. M.S. Yeoman, G. Kemenes, P.R. Benjamin & C.J.H. Elliott (1994) Modulatory role for the serotonergic Cerebral Giant Cells in the feeding system of the snail, Lymnaea. II. Photoinactivation. J. Neurophysiol. 72, 1372-1382. 
  64. G. Kemenes & P.R. Benjamin (1994) Training in a novel environment improves the appetitive learning performance of the snail, Lymnaea stagnalis. Behav. Neural. Biol. 61, 139-149.
  65. G. Kemenes & C.J.H. Elliott (1994) Analysis of the feeding motor pattern in the pond snail, Lymnaea stagnalis: photoinactivation of axonally stained pattern generating interneurones. J. Neurosci., 14, 153-166. 
  66. G. Kemenes, I.S. Zakharov, Á. Vehovszky & K. S.-Rózsa (1993) Neurophysiological correlates of tactile stimulus-induced whole-body eversion, a novel type of behavior in the snail Helix pomatia L. Brain Res. 612, 16-27.
  67. G. Kemenes, K. S.-Rózsa & D.O. Carpenter (1993) Cyclic-AMP mediated excitatory responses to leucine enkephalin in Aplysia neurons. J. exp. Biol., 181, 321-328.
  68. G. Kemenes, K. Daykin & C.J.H. Elliott (1992) Vital staining with 5(6) carboxyfluorescein in the feeding system of Lymnaea  and the selective photoinactivation of the filled neurones. Acta Biol. Hung. 43, 351-360.
  69. Á. Vehovszky, G. Kemenes & K. S.-Rózsa (1992) The monosynaptic connections between the serotonin-containing LP3 and RPas cells in Helix  are serotonergic. J. exp. Biol. 173, 109-122. 
  70. G. Kemenes (1992) Processing of mechano- and chemosensory information in the lip nerves and cerebral ganglia of the snail Helix pomatia  L. J. High. Nerv. Activity. 42, 1180-1195. (invited review)
  71. G. Kemenes, K. S.-Rózsa, G. Stefano & D.O. Carpenter (1992) Distinct receptors for Leu- and Met-enkephalin on the metacerebral giant cell of Aplysia.  Cell. Mol. Neurobiol. 12, 107-119.
  72. L. Hernádi, L. Hiripi, Á. Vehovszky, G. Kemenes & K. S.-Rózsa (1992) Ultrastructural, biochemical and electrophysiological changes induced by 5,6-dihydroxytryptamine in the CNS of the snail Helix pomatia  L. Brain Res. 578, 221-234. 
  73. C.J.H. Elliott & G. Kemenes (1992) Cholinergic interneurons in the feeding system of the pond snail Lymnaea stagnalis.  2) N1 interneurons make cholinergic synapses with feeding motoneurons. Phil. Trans. Roy. Soc. Lond. B. 336, 167-180. 
  74. Osipenko & G. Kemenes (1991) The interneuronal monosynaptic peptidergic contact responsible for the bursting activity generation in the RPa1 neuron of the snail Helix pomatia  is axo-axonal. Comp. Biochem. Phys. 99A, 371-375.  
  75. G. Kemenes, K. Daykin & C.J.H. Elliott (1991) Photoinactivation of neurones axonally filled with the fluorescent dye 5(6) carboxyfluorescein in the pond snail, Lymnaea stagnalis. J. Neurosci. Meth. 39, 207-216. 
  76. C.J.H. Elliott, G. Kemenes & S. Waddington (1991) The modulatory peptide SCPb inhibits feeding in the mollusc Lymnaea stagnalis. Comp. Biochem. Phys. 100C, 615-618. 
  77. K. Elekes, G. Kemenes, L. Hiripi, M. Geffard & P.R. Benjamin (1991) Dopamine-immunoreactive neurones in the central nervous system of the pond snail Lymnaea stagnalis.  J. comp. Neurol. 307, 214-224.
  78. G. Kemenes, L. Hiripi & .R. Benjamin (1990) Behavioural and biochemical changes in the feeding system of Lymnaea induced by the dopamine and serotonin neurotoxins 6 hydroxydopamine and 5,6-dihydroxytryptamine. Phil. Trans. Roy. Soc. Lond. B., 329, 243-255.
  79. Á. Vehovszky, G. Kemenes & K. S.-Rózsa (1989) Central and peripheral connections of an identified pedal neurone modifying pneumostome movements in Helix.  Comp. Biochem. Physiol. 94A, 735-741. 
  80. Á. Vehovszky, G. Kemenes & K. S.-Rózsa (1989) Monosynaptic connections between serotonin-containing neurons labelled by 5,6-dihydroxytryptamine-induced pigmentation in the snail Helix pomatia  L. Brain Res. 484, 404-407.
  81. G. Kemenes & P.R. Benjamin (1989) Appetitive learning in snails shows characteristics of conditioning in vertebrates. Brain Res. 489, 163-166. 
  82. G. Kemenes & P.R. Benjamin (1989) Goal-tracking behavior in the pond snail Lymnaea stagnalis.  Behav. Neur. Biol. 52, 260-270.
  83. G. Kemenes, K. Elekes, L. Hiripi & P.R. Benjamin (1989) A comparison of four techniques for mapping the distribution of serotonin and serotonin-containing neurones in fixed and living ganglia of the snail Lymnaea.  J. Neurocyt. 18, 193-208. 
  84. L. Hernádi, G. Kemenes & J. Salánki (1987) Sensory responses and axonal morphology of two different types of cerebral neurones in Helix pomatia  L. Comp. Biochem. Physiol. 88A, 641-647.
  85. K. S.-Rózsa, L. Hernádi & G. Kemenes (1986) Selective in vivo labelling of serotonergic neurones by 5,6-dihydroxytryptamine in the snail Helix pomatia  L. Comp. Biochem. Physiol. 85C, 419-425. 
  86. G. Kemenes, C.J.H. Elliott & P.R. Benjamin (1986) Chemical and tactile inputs to the  Lymnaea feeding system: effects on behaviour and neural circuitry. J. exp. Biol. 122, 113-137.
  87. G. Kemenes, L. Hernádi & J. Salánki (1985) Input and output organization of cerebral neurones responding to tactile and taste stimuli applied to the lip of Helix pomatia  L. Acta Biol. Hung. 36, 153-164. 
  88. L. Hernádi, G. Kemenes & J. Salánki (1984) Central representation and functional connections of afferent and efferent pathways of Helix pomatia  L. lip nerves. Acta Biol. Hung. 35, 49-69.
  89. G. Kemenes, L. Hernádi & J. Salánki (1982) Identification of a cerebral motoneuron responding to lip-stimulation in Helix pomatia  L. Acta biol. Acad. Sci. hung. 33, 215-229.

 

2. Book chapters

  1. Byrne JH, Hochner B, Kemenes G (2017) Cellular and Molecular Mechanisms of Memory in Mollusks. In: Learning and Memory: A Comprehensive Reference, Second Edition (Ed. Byrne JH) Elsevier. pp. 453-474.
  2. Benjamin PR, Kemenes G (2017) Behavioral and Circuit Analysis of Learning and Memory in Mollusks. In: Learning and Memory: A Comprehensive Reference, Second Edition (Ed. Byrne JH) Elsevier. pp. 427-440.
  3. Kemenes I, Kemenes G (2016) PACAP and Learning in Invertebrates. In: Pituitary Adenylate Cyclase Activating Polypeptide — PACAP (Eds. Reglodi D., Tamas A.). Current Topics in Neurotoxicity, vol 11. Springer, Cham. pp. 43-50.
  4. Kemenes G (2015) Dynamic molecular mechanisms of memory consolidation after single-trial food-reward classical conditioning in Lymnaea. In: Memory Consolidation (Eds. Sakakibara M and Ito E). Nova Science Publishers, New York. Pp. 127-141.
  5. Kemenes G (2013) Molecular and Cellular Mechanisms of Classical Conditioning in the Feeding System of Lymnaea. In: Invertebrate Learning and Memory (Eds. Menzel R and Benjamin PR). San Diego: Academic Press, pp. 251-264.
  6. Krasne FB, Kemenes G and Glanzman DL (2010) Analysis of Learning in Invertebrates. In: Encyclopedia of Behavioral Neuroscience (eds. GF Koob, M Le Moal and RF Thompson). In press, Elsevier, London
  7. Benjamin PR and Kemenes G (2009) Invertebrate Models to Study Learning and Memory: Lymnaea. In: Encyclopedia of Neuroscience (ed. L. Squire). Vol. 5, pp. 197-204. Oxford: Academic Press.
  8. Benjamin PR and Kemenes G (2008) Behavioral and Circuit Analysis of Learning and Memory in Molluscs. In: Learning and Memory: A Comprehensive Reference. (Editor-in-Chief: JH Byrne), Section 4. Behavioural and Cellular Mechanisms (Ed. R. Menzel). Vol 4 pp 587-604, Elsevier, London
  9. Kemenes G (2008) Molecular Mechanisms of Associative Learning: Lymnaea. In: Learning and Memory: A Comprehensive Reference. (Editor-in-Chief: JH Byrne), Section 1. Molecular Mechanisms (Ed. D Sweatt). Vol 1 pp 113-148, Elsevier, London
  10. Benjamin PR, Kemenes G and Staras K (2005) Molluscan Nervous Systems.In: Encyclopedia of Life Sciences. (Ed. I. Levitan) DOI: 10.1038/npg.els.0004073, John Wiley & Sons, Ltd.
  11. P.R. Benjamin, G. Kemenes & K. Staras (2000) Molluscan Nervous Systems. In: Nature Encyclopedia of Life Sciences, London: Nature Publishing Group, http://www.els.net/doi:10.1038/npg.els.0000184
  12. K. Elekes, L. Hernádi & G. Kemenes (1988) Serotonin-immunoreactive neurones in the CNS of Helix and Lymnaea. In: Neurobiology of Invertebrates. Transmitters, Modulators and Receptors. Eds. J. Salánki & K. S.-Rózsa. Academic Publishing House, Budapest. pp. 703-711. 
  13. G. Kemenes, P.R. Benjamin & L. Hiripi (1988) 5,6-dihydroxytryptamine-induced changes in the serotonergic modulation of feeding in Lymnaea. In: Neurobiology of Invertebrates. Transmitters, Modulators and Receptors. Eds. J. Salánki & K. S.-Rózsa. Academic Publishing House, Budapest. pp. 415-431.
  14. Á. Vehovszky, G. Kemenes, L. Hiripi, L. Hernádi & K. S.-Rózsa (1988) Reversible effect of 5,6-dihydroxytryptamine treatment on Helix: a combined behavioural, electrophysiological and biochemical study. In: Neurobiology of Invertebrates. Transmitters, Modulators and Receptors. Eds. J. Salánki & K. S.-Rózsa. Academic Publishing House, Budapest. pp. 403-414.
  15. L. Hernádi, G. Kemenes & K.-S.-Rózsa (1987) Selective in vivo labelling of serotonergic neurones by 5,6-dihydroxytryptamine (5,6-DHT) in the snail Helix pomatia  L. In: Neurobiology. Molluscan Models. Eds. Boer, H.H.; Geraerts, W.P.M. & Joosse, J. North Holland Publ. Co., Amsterdam. pp.22-26.
  16. G. Kemenes & K. S.-Rózsa (1987) The role of serotonergic mechanisms in food-induced arousal of the snail Helix pomatia L. In: Neurobiology. Molluscan Models. Eds. Boer, H.H.; Geraerts, W.P.M. & Joosse, J. North Holland Publ. Co., Amsterdam. pp. 277-287.