STG References

Abbott LF, LeMasson G, Siegel M, Marder E (1993) Activity-dependent modification of intrinsic neuronal properties. In: International Conference on Artificial Neural Networks, Amsterdam (ICANN'93) (Gielen S, Kappen B, eds), pp 171-176. London: Springer-Verlag.
Abbott LF, Marder E (1998) Modeling small networks. In: Methods in neuronal modeling: from ions to networks (Koch C, Segev I, eds), pp 361-410. Cambridge: MIT Press.
Abbott LF, Marder E, Hooper SL (1991) Oscillating Networks: Control of burst duration by electrically coupled neurons. Neural Comput 3:487-497.
Abbott LF, Siegel M, Marder E (1994) Activity-dependent distributions of neuronal conductances. In: Computation in Neurons and Neural Systems (Eeckman FH, ed), pp 47-52. Boston: Kluwer Academic Publishers.
Abele LG, Felgenhauer BE (1986) Phylogenetic and phenetic relationships among the lower decapoda. J Crust Biol 6:385-400.
Albert J, Lingle CJ, Marder E, O'Neil MB (1986) A GABA-activated chloride-conductance not blocked by picrotoxin on spiny lobster neuromuscular preparations. Br J Pharmacol 87:771-779.
Anderson WW (1980) Synaptic mechanisms generating nonspiking network oscillations in the stomatogastric ganglion synaptic of the lobster, Panulirus interuptus. In: University of Oregon.
Anderson WW, Barker DL (1981) Synaptic mechanisms that generate network oscillations in the absence of discrete postsynaptic potentials. J Exp Zool 216:187-191.
Anderson WW, Kushner PD (1987) The pyloric pacemakers of the crayfish stomatogastric ganglion are conditional burster neurons. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 139-145. Berlin: Springer-Verlag.
Atwood HL, Govind CK, Jahromi SS (1977) Excitatory synapses of blue crab gastric mill muscles. Cell Tissue Res 177:145-158.
Atwood HL, Govind CK, Kwan I (1978) Nonhomogeneous excitatory synapses of a crab stomach muscle. J Neurobiol 9:17-28.
Auerbach A, Barker DL (1981) [(3)H]Choline uptake and metabolism in nonsynaptic regions of a crustacean sensory nerve. J Neurochem 36:1648-1658.
Ayali A (2004) The insect frontal ganglion and stomatogastric pattern generator networks. Neurosignals 13:20-36.
Ayali A, Harris-Warrick RM (1998) Interaction of dopamine and cardiac sac modulatory inputs on the pyloric network in the lobster stomatogastric ganglion. Brain Res 794:155-161.
Ayali A, Harris-Warrick RM (1999) Monoamine control of the pacemaker kernel and cycle frequency in the lobster pyloric network. J Neurosci 19:6712-6722.
Ayali A, Johnson BR, Harris-Warrick RM (1998) Dopamine modulates graded and spike-evoked synaptic inhibition independently at single synapses in pyloric network of lobster. J Neurophysiol 79:2063-2069.
Ayali A, Zilberstein Y, Cohen N (2002) The locust frontal ganglion: a central pattern generator network controlling foregut rhythmic motor patterns. J Exp Biol 205:2825-2832.
Ayers J, Selverston AI (1984) Synaptic perturbation and entrainment of gastric mill rhythm of the spiny lobster. J Neurophysiol 51:113-125.
Ayers JL, Selverston AI (1977) Synaptic control of an endogenous pacemaker network. J Physiol 73:453-461.
Ayers JL, Selverston AI (1979) Monosynaptic entrainment of an endogenous pacemaker network: A cellular mechanism for von Holst's magnet effect. J Comp Physiol 129:5-17.
Bal T (1991) Mecanismes cellulaire impliques dans la reconfiguration fonctionnelle des reseaux neuronaux stomatogastriques des crustaces: Analyse electrophysiologique et pharmacologique par photodissection in situ. In. Bordeaux, France: L'Universite de Bordeaux I.
Bal T, Nagy F, Moulins M (1988) The pyloric central pattern generator in crustacea: A set of conditional neuronal oscillators. J Comp Physiol 163:715-727.
Bal T, Nagy F, Moulins M (1990) Controle des proprietes neuronales: son importance dans la flexibilite d'un reseau chez les crustaces. Arch Int Physiol Biochim.
Bal T, Nagy F, Moulins M (1994) Muscarinic modulation of a pattern-generating network: control of neuronal properties. J Neurosci 14:3019-3035.
Baldwin DH, Graubard K (1995) Distribution of fine neurites of stomatogastric neurons of the crab Cancer borealis: Evidence for a structured neuropil. J Comp Neurol 356:355-367.
Barker DL, Herbert E, Hildebrand JG, Kravitz EA (1972) Acetylcholine and lobster sensory neurones. J Physiol (Lond) 226:205-229.
Barker DL, Kushner PD, Hooper NK (1979) Synthesis of dopamine and octopamine in the crustacean stomatogastric nervous system. Brain Res 161:99-113.
Barker PL, Gibson R (1977) Observations on the feeding mechanism, structure of the gut and digestive physiology of the European lobster, Homarus gammarus (L.) (Decapoda: Nephropidae). J Exp Mar Biol Ecol 26:297-324.
Baro DJ, Ayali A, French L, Scholz NL, Labenia J, Lanning CC, Graubard K, Harris-Warrick RM (2000) Molecular underpinnings of motor pattern generation: differential targeting of shal and shaker in the pyloric motor system. J Neurosci 20:6619-6630.
Baro DJ, Cole CL, Harris-Warrick RM (1996a) RT-PCR analysis of shaker, shab, shaw, and shal gene expression in single neurons and glial cells. Receptors and Channels 4:149-159.
Baro DJ, Cole CL, Zarrin AR, Hughes S, Harris-Warrick RM (1994) Shab gene expression in identified neurons of the pyloric network in the lobster stomatogastric ganglion. Receptors and Channels 2:193-205.
Baro DJ, Coniglio LM, Cole CL, Rodriguez HE, Lubell JK, Kim MT, Harris-Warrick RM (1996) Lobster shal: Comparison with Drosophila shal and native potassium currents in identified neurons. J Neurosci 16:1689-1701.
Baro DJ, Levini MT, Kim MT, Willms AR, Lanning CC, Rodriguez HE, Harris-Warrick RM (1997) Quantitative single-cell-reverse transcription-PCR demonstrates that A-current magnitude varies as a linear function of shal gene expression in identified stomatogastric neurons. J Neurosci 17:6597-6610.
Baro DJ, Quinones L, Lanning CC, Harris-Warrick RM, Ruiz M (2001) Alternate splicing of the shal gene and the origin of I(A) diversity among neurons in a dynamic motor network. Neuroscience 106:419-432.
Baro DL, Cole CL, Harris-Warrick RM (1996b) The lobster shaw gene: cloning, sequence analysis and comparison to fly shaw. Gene 170:267-270.
Bartos M, Manor Y, Nadim F, Marder E, Nusbaum MP (1999) Coordination of fast and slow rhythmic neuronal circuits. J Neurosci 19:6650-6660.
Bartos M, Nusbaum MP (1997) Intercircuit control of motor pattern modulation by presynaptic inhibition. J Neurosci 17:2247-2256.
Bedrov YA, Dick OE, Nozdrachev AD, Akoev GN (2000) Method for constructing the boundary of the bursting oscillations region in the neuron model. Biol Cybern 82:493-497.
Beenhakker MP, Blitz DM, Nusbaum MP (2004) Long-lasting activation of rhythmic neuronal activity by a novel mechanosensory system in the crustacean stomatogastric nervous system. J Neurophysiol 91:78-91.
Beenhakker MP, Nusbaum MP (2004) Mechanosensory activation of a motor circuit by coactivation of two projection neurons. J Neurosci 24:6741-6750.
Beltz B, Eisen JS, Flamm R, Harris-Warrick RM, Hooper SL, Marder E (1984) Serotonergic innervation and modulation of the stomatogastric ganglion of three decapod crustaceans (Panulirus interruptus, Homarus americanus and Cancer irroratus). J Exp Biol 109:35-54.
Beltz BS, Kravitz EA (1983) Mapping of serotonin-like immunoreactivity in the lobster nervous system. J Neurosci 3:585-602.
Bem T, Le Feuvre Y, Simmers J, Meyrand P (2002) Electrical coupling can prevent expression of adult-like properties in an embryonic neural circuit. J Neurophysiol 87:538-547.
Benson JA, Cooke IM (1984) Driver potentials and the organization of rhythmic bursting in crustacean ganglia. TINS 7:85-91.
Bidaut M (1980) Pharmacological dissection of pyloric network of the lobster stomatogastric ganglion using picrotoxin. J Neurophysiol 44:1089-1101.
Birmingham JT (2001) Increasing sensor flexibility through neuromodulation. Biol Bull 200:206-210.
Birmingham JT, Billimoria CP, DeKlotz TR, Stewart RA, Marder E (2003) Differential and history-dependent modulation of a stretch receptor in the stomatogastric system of the crab, Cancer borealis. J Neurophysiol.
Birmingham JT, Szuts ZB, Abbott LF, Marder E (1999) Encoding of muscle movement on two time scales by a sensory neuron that switches between spiking and bursting modes. J Neurophysiol 82:2786-2797.
Blitz DM, Beenhakker MP, Nusbaum MP (2004) Different sensory systems share projection neurons but elicit distinct motor patterns. J Neurosci 24:11381-11390.
Blitz DM, Christie AE, Coleman MJ, Norris BJ, Marder E, Nusbaum MP (1999) Different proctolin neurons elicit distinct motor patterns from a multifunctional neuronal network. J Neurosci 19:5449-5463.
Blitz DM, Christie AE, Marder E, Nusbaum MP (1995) Distribution and effects of tachykinin-like peptides in the stomatogastric nervous system of the crab, Cancer borealis. J Comp Neurol 354:282-294.
Blitz DM, Nusbaum MP (1997) Motor pattern selection via inhibition of parallel pathways. J Neurosci 17:4965-4975.
Blitz DM, Nusbaum MP (1999) Distinct functions for cotransmitters mediating motor pattern selection. J Neurosci 19:6774-6783.
Bohm H (1995) Activity of the stomatogastric system in free-moving crayfish, Orconectes limosus Raf. Zoology 99:247-257.
Bohm H, Dybek E, Heinzel HG (2001) Anatomy and in vivo activity of neurons connecting the crustacean stomatogastric nervous system to the brain. J Comp Physiol [A] 187:393-403.
Bohm H, Eitner E, Messai E, Heinzel HG (1997) Das nervensystem des flusskrebsmagens. Biologie in inserer Zeit 27:56-64.
Bohm H, Messai E, Heinzel HG (1997) Activity of command fibres in free-ranging crayfish, Orconectes limosus Raf. Naturwissenschaften 84:408-410.
Bose A, Manor Y, Nadim F (2004) The activity phase of postsynaptic neurons in a simplified rhythmic network. J Comput Neurosci 17:245-261.
Bucher D, Thirumalai V, Marder E (2003) Axonal dopamine receptors activate peripheral spike initiation in a stomatogastric motor neuron. J Neurosci 23:6866-6875.
Buchholtz F, Golowasch J, Epstein IR, Marder E (1992) Mathematical model of an identified stomatogastric ganglion neuron. J Neurophysiol 67:332-340.
Cabirol-Pol MJ, Mizrahi A, Simmers J, Meyrand P (2000) Combining laser scanning confocal microscopy and electron microscopy to determine sites of synaptic contact between two identified neurons. J Neurosci Methods 97:175-181.
Caine EA (1975) Feeding and masticatory structures of six species of the crayfish (Decapoda, Astacidae). Forma et Functio 8:49-66.
Calabrese RL (1991) The center cannot hold. Curr Biol 1:185-187.
Calabrese RL (1998) Cellular, synaptic, network, and modulatory mechanisms involved in rhythm generation. Curr Opin Neurobiol 8:710-717.
Calabrese RL (1999) Taking the lead from a model. Curr Biol 9:R680-683.
Callaway JC, Masinovsky B, Graubard K (1987) Co-localization of SCPB-like and FMRFamide-like immunoreactivities in crustacean nervous systems. Brain Res 405:295-304.
Calvin WH, Hartline DK (1977) Retrograde invasion of lobster stretch receptor somata in control of firing rate and extra spike patterning. J Neurophysiol 40:106-118.
Cardi P, Nagy F (1994) A rhythmic modulatory gating system in the stomatogastric nervous system of Homarus gammarus. III. Rhythmic control of the pyloric CPG. J Neurophysiol 71:2503-2516.
Cardi P, Nagy F, Cazaletz JR, Moulins M (1990) Multimodal distribution and discontinuous variation in period of interacting oscillators in the crustacean stomatogastric nervous system. J Comp Physiol 167:23-41.
Carlton CE, Schmitz EH (1989) Anatomy of the extrinsic gut musculature of Gammarus minus (Crustacea Amphipoda). J Morphol 200:87-92.
Casasnovas B, Meyrand P (1995) Functional differentiation of adult neural circuits from a single embryonic network. J Neurosci 15:5703-5718.
Cazalets JR, Cournil I, Geffard M, Moulins M (1987) Suppression of oscillatory activity in crustacean pyloric neurons: implication of GABAergic inputs. J Neurosci 7:2884-2893.
Cazalets JR, Nagy F, Moulins M (1987) Suppressive control of a rhythmic central pattern generator by an identified modulatory neuron in crustacea. Neurosci Lett 81:267-272.
Cazalets JR, Nagy F, Moulins M (1990a) Suppressive control of the crustacean pyloric network by a pair of identified interneurons. I. Modulation of the motor pattern. J Neurosci 10:448-457.
Cazalets JR, Nagy F, Moulins M (1990b) Suppressive control of the crustacean pyloric network by a pair of identified interneurons. II. Modulation of neuronal properties. J Neurosci 10:458-468.
Chabaud F, Friedi M, Reichert H (1991) Neuronal development of the crustacean stomatogastric nervous system. In: Synapse, Transmission, Modulation (Penzlin H, Elsner N, eds), p 495. Thieme: Verlag.
Chiba C, Tazaki K (1992) Glutamatergic motoneurons in the stomatogastric ganglion of the mantis shrimp Squilla oratoria. J Comp Physiol [A] 170:773-786.
Christie A, Baldwin D, Turrigiano G, Graubard K, Marder E (1995) Immunocytochemical localization of multiple cholecystokinin-like peptides in the stomastogastric nervous system of the crab Cancer borealis. J Exp Biol 198:263-271.
Christie A, Skiebe P, Marder E (1995) Matrix ofneuromodulators in neurosecretory structures of the crab, Cancer borealis. J Exp Biol 198:2431-2439.
Christie AE, Baldwin DH, Marder E, Graubard K (1997) Organization of the stomatogastric neuropil of the crab, Cancer borealis, as revealed by modulator immunocytochemistry. Cell Tissue Res 288:135-148.
Christie AE, Cain SD, Edwards JM, Clason TA, Cherny E, Lin M, Manhas AS, Sellereit KL, Cowan NG, Nold KA, Strassburg HP, Graubard K (2004a) The anterior cardiac plexus: an intrinsic neurosecretory site within the stomatogastric nervous system of the crab Cancer productus. J Exp Biol 207:1163-1182.
Christie AE, Edwards JM, Cherny E, Clason TA, Graubard K (2003) Immunocytochemical evidence for nitric oxide- and carbon monoxide-producing neurons in the stomatogastric nervous system of the crayfish Cherax quadricarinatus. J Comp Neurol 467:293-306.
Christie AE, Hall C, Oshinsky M, Marder E (1994) Buccalin-like and myomodulin-like peptides in the stomatogastric ganglion of the crab Cancer borealis. J Exp Biol 193:337-343.
Christie AE, Lundquist CT, Nassel DR, Nusbaum MP (1997) Two novel tachykinin-related peptides from the nervous system of the crab Cancer borealis. J Exp Biol 200:2279-2294.
Christie AE, Stein W, Quinlan JE, Beenhakker MP, Marder E, Nusbaum MP (2004b) Actions of a histaminergic/peptidergic projection neuron on rhythmic motor patterns in the stomatogastric nervous system of the crab Cancer borealis. J Comp Neurol 469:153-169.
Claiborne BJ, Ayers J (1987) Functional anatomy and behavior. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 9-29. Berlin: Springer-Verlag.
Claiborne BJ, Selverston AI (1984a) Histamine as a neurotransmitter in the stomatogastric nervous system of the spiny lobster. J Neurosci 4:708-721.
Claiborne BJ, Selverston AI (1984b) Localization of stomatogastric IV neuron cell bodies in lobster brain. J Comp Physiol A 154:27-32.
Clarac F, Cattaert D (1999) Functional multimodality of axonal tree in invertebrate neurons. J Physiol Paris 93:319-327.
Clark MC, Dever TE, Dever JJ, Xu P, Rehder V, Sosa MA, Baro DJ (2004) Arthropod 5-HT2 receptors: a neurohormonal receptor in decapod crustaceans that displays agonist independent activity resulting from an evolutionary alteration to the DRY motif. J Neurosci 24:3421-3435.
Cleland TA (1996) Inhibitory glutamate receptor channels. Mol Neurobiol 13:97-136.
Cleland TA, Selverston AI (1995) Glutamate-gated inhibitory currents of central pattern generator neurons in the lobster stomatogastric ganglion. J Neurosci 15:6631-6639.
Cleland TA, Selverston AI (1997) Dopaminergic modulation of inhibitory glutamate receptors in the lobster stomatogastric ganglion. J Neurophysiol 78:3450-3452.
Cleland TA, Selverston AI (1998) Inhibitory glutamate receptor channels in cultured lobster stomatogastric neurons. J Neurophysiol 76:3189-3196.
Clemens S, Combes D, Meyrand P, Simmers J (1998) Long-term expression of two interacting motor pattern-generating networks in the stomatogastric system of freely behaving lobster. J Neurophysiol 79:1396-1408.
Clemens S, Massabuau JC, Legeay A, Meyrand P, Simmers J (1998) In vivo modulation of interacting central pattern generators in lobster stomatogastric ganglion: influence of feeding and partial pressure of oxygen. J Neurosci 18:2788-2799.
Clemens S, Massabuau JC, Meyrand P, Simmers J (1999) Changes in motor network expression related to moulting behaviour in lobster: role of moult-induced deep hypoxia. J Exp Biol 202:817-827.
Clemens S, Massabuau JC, Meyrand P, Simmers J (2001) A modulatory role for oxygen in shaping rhythmic motor output patterns of neuronal networks. Respir Physiol 128:299-315.
Clemens S, Meyrand P, Simmers J (1998) Feeding-induced changes in temporal patterning of muscle activity in the lobster stomatogastric system. Neurosci Lett 254:65-68.
Cohen L, Wu JY (1990) One neuron, many units? Nature 346:108-109.
Coleman MJ, Konstant PH, Rothman BS, Nusbaum MP (1994) Neuropeptide degradation produces functional inactivation in the crustacean nervous system. J Neurosci 14:6205-6216.
Coleman MJ, Meyrand P, Nusbaum MP (1995) A switch between two modes of synaptic transmission mediated by presynaptic inhibition. Nature 378:502-505.
Coleman MJ, Nusbaum MP (1994) Functional consequences of compartmentalization of synaptic input. J Neurosci 14:6544-6552.
Coleman MJ, Nusbaum MP, Cournil I, Claiborne BJ (1992) Distribution of modulatory inputs to the stomatogastric ganglion of the crab, Cancer borealis. J Comp Neurol 325:581-594.
Combes D, Meyrand P, Simmers J (1999a) Dynamic restructuring of a rhythmic motor program by a single mechanoreceptor neuron in lobster. J Neurosci 19:3620-3628.
Combes D, Meyrand P, Simmers J (1999b) Motor pattern specification by dual descending pathways to a lobster rhythm-generating network. J Neurosci 19:3610-3619.
Combes D, Simmers J, Moulins M (1995) Structural and functional characterization of a muscle tendon proprioceptor in lobster. J Comp Neurol 363:221-234.
Combes D, Simmers J, Moulins M (1997) Conditional dendritic oscillators in a lobster mechanoreceptor neurone. J Physiol (Lond) 499:161-177.
Combes D, Simmers J, Nonnotte L, Moulins M (1993) Tetrodotoxin-sensitive dendritic spiking and control of axonal firing in a lobster mechanoreceptor neurone. J Physiol (Lond) 460:581-602.
Coombs EG, Allen JA (1978) The functional morphology of the feeding appendages and gut of Hippolyte varians (Crustacea: Natania). Zool J Linn Soc Lond 64:261-282.
Cournil I, Casasnovas B, Helluy SM, Beltz BS (1995) Dopamine in the lobster Homarus gammarus: II. Dopamine-immunoreactive neurons and development of the nervous system. J Comp Neurol 362:1-16.
Cournil I, Geffard M, Moulins M, Le Moal M (1984) Coexistence of dopamine and serotonin in an identified neuron of the lobster nervous system. Brain Res 310:397-400.
Cournil I, Helluy SM, Beltz BS (1994) Dopamine in the lobster Homarus gammarus. I. Comparative analysis of dopamine and tyrosine hydroxylase immunoreactivities in the nervous system of the juvenile. J Comp Neurol 344:455-469.
Cournil I, Meyrand P, Moulins M (1990a) Identification of all GABA-immunoreactive neurons projecting to the lobster stomatogastric ganglion. J Neurocytol 19:478-493.
Cournil I, Meyrand P, Moulins M (1990b) Lobster stomatogastric GABA system. In: Frontiers in Crustacean Neurobiology (Wiese K, Krenz W-D, Tautz J, Reichert H, Mulloney B, eds), pp 448-454. Basel: Birkhauser Verlag.
Dall W, Moriarty DJW (1983) Functional aspects of nutrition and digestion. In: The Biology of Crustacea: Internal Anatomy and Physiological Regulation (Mantel LH, ed), pp 215-261. New York: Academic Press.
Dando MR, Chanussot B, Nagy F (1974) Activation of command fibres to the stomatogastric ganglion by input form a gastric mill proprioceptor in the crab, Cancer pagurus. Mar Behav Physiol 2:197-228.
Dando MR, Laverack MS (1969) The anatomy and physiology of the posterior stomach nerve (p.s.n.) in some decapod crustacea. Proc R Soc Lond B Biol Sci 171:465-482.
Dando MR, Maynard DM (1974) The sensory innervation of the foregut of Panulirus argus (Decapoda Crustacea). Mar Behav Physiol 2:283-305.
Dando MR, Selverston AI (1972) Command fibres from the supra-oesophageal ganglion to the stomatogastric ganglion in Panulirus argus. J Comp Physiol 78:138-175.
Dickinson PS (1989) Motor program selection in the arthropod stomatogastric nervous system: Motor output in a modulated network. In: Neural Mechanisms of Behavior (Erber J, Menzel R, Pfluger H, Todt D, eds), pp 184-185. Stuttgart: Georg Thieme Verlage.
Dickinson PS (1995) Interactions among neural networks for behavior. Curr Opin Neurobiol 5:792-798.
Dickinson PS, Fairfield WP, Hetling JR, Hauptman J (1997) Neurotransmitter interactions in the stomatogastric system of the spiny lobster: one peptide alters the response of a central pattern generator to a second peptide. J Neurophysiol 77:599-610.
Dickinson PS, Hauptman J, Hetling J, Mahadevan A (2001) RCPH modulation of a multi-oscillator network: effects on the pyloric network of the spiny lobster. J Neurophysiol 85:1424-1435.
Dickinson PS, Marder E (1989) Peptidergic modulation of a multioscillator system in the lobster. I. Activation of the cardiac sac motor pattern by the neuropeptides proctolin and red pigment-concentrating hormone. J Neurophysiol 61:833-844.
Dickinson PS, Mecsas C, Hetling J, Terio K (1993) The neuropeptide red pigment concentrating hormone affects rhythmic pattern generation at multiple sites. J Neurophysiol 69:1475-1483.
Dickinson PS, Mecsas C, Marder E (1990) Neuropeptide fusion of two motor-pattern generator circuits. Nature 344:155-158.
Dickinson PS, Moulins M (1992) Interactions and combinations between different networks in the stomatogastric nervous system. In: Dynamic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins M, eds), pp 139-160. Cambridge, MA: MIT Press.
Dickinson PS, Nagy F (1983) Control of a central pattern generator by an identified modulatory interneurone in crustacea. II. Induction and modification of plateau properties in pyloric neurones. J Exp Biol 105:59-82.
Dickinson PS, Nagy F, Moulins M (1981) Interganglionic communication by spiking and nonspiking fibers in same neuron. J Neurophysiol 45:1125-1138.
Dickinson PS, Nagy F, Moulins M (1988) Control of central pattern generators by an identified neurone in crustacea: Activation of the gastric mill motor pattern by a neurone known to modulate the pyloric network. J Exp Biol 136:53-87.
Dindle H, Caldwell RL (1978) Ecology and morphology of feeding and agonistic behavior in mudflat stomatopods (Squillidae). Biol Bull 155:134-149.
Dircksen H, Skiebe P, Abel B, Agricola H, Buchner K, Muren JE, Nassel DR (1999) Structure, distribution, and biological activity of novel members of the allatostatin family in the crayfish Orconectes limosus. Peptides 20:695-712.
Edwards DH, Jr., Mulloney B (1984) Compartmental models of electrotonic structure and synaptic integration in an identified neurone. J Physiol (Lond) 348:89-113.
Eisen JS, Marder E (1982) Mechanisms underlying pattern generation in lobster stomatogastric ganglion as determined by selective inactivation of identified neurons. III. Synaptic connections of electrically coupled pyloric neurons. J Neurophysiol 48:1392-1415.
Eisen JS, Marder E (1984) A mechanism for production of phase shifts in a pattern generator. J Neurophysiol 51:1375-1393.
Elson RC, Huerta R, Abarbanel HD, Rabinovich MI, Selverston AI (1999) Dynamic control of irregular bursting in an identified neuron of an oscillatory circuit. J Neurophysiol 82:115-122.
Elson RC, Panchin YV, Arshavsky YI, Selverston AI (1994) Multiple effects of an identified proprioceptor upon gastric pattern generation in spiny lobsters. J Comp Physiol [A] 174:317-329.
Elson RC, Selverston AI (1992) Mechanisms of gastric rhythm generation in the isolated stomatogastric ganglion of spiny lobsters: bursting pacemaker potentials, synaptic interactions, and muscarinic modulation. J Neurophysiol 68:890-907.
Elson RC, Selverston AI (1995) Slow and fast synaptic inhibition evoked by pattern-generating neurons of the gastric mill network in spiny lobsters. J Neurophysiol 74:1996-2011.
Elson RC, Selverston AI (1997) Evidence for a persistent Na+ conductance in neurons of the gastric mill rhythm generator of spiny lobsters. J Exp Biol 200:1795-1807.
Elson RC, Selverston AI, Abarbanel HD, Rabinovich MI (2002) Inhibitory synchronization of bursting in biological neurons: dependence on synaptic time constant. J Neurophysiol 88:1166-1176.
Epstein IR, Marder E (1990) Multiple modes of a conditional neural oscillator. Biol Cybern 63:25-34.
Ewald DA, Barker DL (1987) Dopaminergic modulation of the lobster pyloric pacemaker potential is enhanced by concurrent inhibition of cyclic nucleotide phosphodiesterase. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 301-303. Berlin: Springer-Verlag.
Factor JR (1981) Development and metamorphosis of the digestiv system of larval lobster, Homarus americanus (Decapoda: Nephropidae). J Morphol 169:225-242.
Factor JR (1982) Develpment and metmorphosis of the feeding apparatus of the stone crab, Menippe mercenaria (Brachyura Xanthindae). J Morphol 172:299-312.
Factor JR (1989) Development of the feeding apparatus in decapod crustaceans. In: Crustacean Issues: Functional Morphology of Feeding and Grooming in Crustacea (Felgenhauer BE, Watling L, Thistle AB, Balkema AA, eds), pp 185-203. Rotterdam: Brookfield.
Falcke M, Huerta R, Rabinovich MI, Abarbanel HD, Elson RC, Selverston AI (2000) Modeling observed chaotic oscillations in bursting neurons: the role of calcium dynamics and IP3. Biol Cybern 82:517-527.
Faumont S, Simmers J, Meyrand P (1998) Activation of a lobster motor rhythm-generating network by disinhibition of permissive modulatory inputs. J Neurophysiol 80:2776-2780.
Felgenhauer BE, Abele LG (1985) Feeding structures of 2 Atyid shrimps with comments on Caridean phylogeny. J Crust Biol 5:397-419.
Felgenhauer BE, Abele LG (1989) Evolution of the foregut in the lower Decapoda. In: Crustacean Issues: Functional Morphology of Feeding and Grooming in Crustacea (Felgenhauer BE, Watling L, Thistle AB, Balkema AA, eds), pp 205-219. Rotterdam: Brookfield.
Fenelon VS, Casasnovas B, Faumont S, Meyrand P (1998) Ontogenetic alteration in peptidergic expression within a stable neuronal population in lobster stomatogastric nervous system. J Comp Neurol 399:289-305.
Fenelon VS, Casasnovas B, Simmers J, Meyrand P (1998) Development of rhythmic pattern generators. Curr Opin Neurobiol 8:705-709.
Fenelon VS, Kilman V, Meyrand P, Marder E (1999) Sequential developmental acquisition of neuromodulatory inputs to a central pattern-generating network. J Comp Neurol 408:335-351.
Fenelon VS, Le Feuvre Y, Meyrand P (2004) Phylogenetic, ontogenetic and adult adaptive plasticity of rhythmic neural networks: a common neuromodulatory mechanism? J Comp Physiol A Neuroethol Sens Neural Behav Physiol 190:691-705.
Flamm RE, Fickbohm D, Harris-Warrick RM (1987) cAMP elevation modulates physiological activity of pyloric neurons in the lobster stomatogastric ganglion. J Neurophysiol 58:1370-1386.
Flamm RE, Harris-Warrick RM (1986a) Aminergic modulation in lobster stomatogastric ganglion. I. Effects on motor pattern and activity of neurons within the pyloric circuit. J Neurophysiol 55:847-865.
Flamm RE, Harris-Warrick RM (1986b) Aminergic modulation in lobster stomatogastric ganglion. II. Target neurons of dopamine, octopamine, and serotonin within the pyloric circuit. J Neurophysiol 55:866-881.
Fleischer AG (1981) The effect of eyestalk hormones of the gastric mill in the intact lobster, Panulirus interruptus. J Comp Physiol 141:363-368.
French LB, Lanning CC, Harris-Warrick RM (2002) The localization of two voltage-gated calcium channels in the pyloric network of the lobster stomatogastric ganglion. Neuroscience 112:217-232.
French LB, Lanning CC, Matly M, Harris-Warrick RM (2004) Cellular localization of Shab and Shaw potassium channels in the lobster stomatogastric ganglion. Neuroscience 123:919-930.
Friend BJ (1976) Morphology and location of dense-core vesicles in the stomatogastric ganglion of the lobster, Panulirus interruptus. Cell Tissue Res 175:369-390.
Friesen JA, Mann KH, Sillison JHM (1986) Gross anatomy and fine structure of the gut of the marine mysid shrimp Mysis stenolepis. Can J Zool 64:431-441.
Garzino V, Reichert H (1992) Expression of a neuron-specific molecular label during development of the crustacean stomatogastric nervous system. In: Rhythmogenesis in Neurons and Networks (Richter DW, Elsner N, eds). Thieme: Verlag.
Garzino V, Reichert H (1994) Early embryonic expression of a 60-kD glycoprotein in the developing nervous system of the lobster. J Comp Neurol 346:572-582.
Glasser S (1976) Computer reconstruction and analysis of motor neurons in the lobster stomatogastric ganglion. In. San Diego: University of California at San Diego.
Glowik RM, Golowasch J, Keller R, Marder E (1997) D-glucose-sensitive neurosecretory cells of the crab Cancer borealis and negative feedback regulation of blood glucose level. J Exp Biol 200:1421-1431.
Goaillard JM, Schulz DJ, Kilman VL, Marder E (2004) Octopamine modulates the axons of modulatory projection neurons. J Neurosci 24:7063-7073.
Gola M, Selverston AI (1981) Ionic requirements for bursting activity in lobster stomatogastric neurons. J Comp Physiol 145:191-207.
Goldberg D, Nusbaum MP, Marder E (1988) Substance P-like immunoreactivity in the stomatogastric nervous systems of the crab Cancer borealis and the lobsters Panulirus interruptus and Homarus americanus. Cell Tissue Res 252:515-522.
Goldman MS, Golowasch J, Marder E, Abbott LF (2001) Global structure, robustness, and modulation of neuronal models. J Neurosci 21:5229-5238.
Golomb D, Guckenheimer J, Gueron S (1993) Reduction of a channel-based model for a stomatogastric ganglion LP neuron. Biol Cybern 69:129-137.
Golowasch J, Abbott LF, Marder E (1999) Activity-dependent regulation of potassium currents in an identified neuron of the stomatogastric ganglion of the crab Cancer borealis. J Neurosci 19:RC33.
Golowasch J, Buchholtz F, Epstein IR, Marder E (1992) Contribution of individual ionic currents to activity of a model stomatogastric ganglion neuron. J Neurophysiol 67:341-349.
Golowasch J, Casey M, Abbott LF, Marder E (1999) Network stability from activity-dependent regulation of neuronal conductances. Neural Comput 11:1079-1096.
Golowasch J, Deitmer JW (1993) pH regulation in the stomatogastric ganglion of the crab Cancer pagurus. J Comp Physiol A 171:573-581.
Golowasch J, Goldman MS, Abbott LF, Marder E (2002) Failure of averaging in the construction of a conductance-based neuron model. J Neurophysiol 87:1129-1131.
Golowasch J, Kumar W, Marder E (1990) Neuromuscular organization and pharmacology. In: Frontiers in Crustacean Neurobiology (Wiese K, ed), pp 417-423. Basel: Birkhauser-Verlag.
Golowasch J, Manor Y, Nadim F (1999) Recognition of slow processes in rhythmic networks. Trends Neurosci 22:375-377.
Golowasch J, Marder E (1992a) Ionic currents of the lateral pyloric neuron of the stomatogastric ganglion of the crab. J Neurophysiol 67:318-331.
Golowasch J, Marder E (1992b) Proctolin activates an inward current whose voltage dependence is modified by extracellular Ca2+. J Neurosci 12:810-817.
Golowasch JP (1991) Characterization of a stomatogastric ganglion neuron. A biophysical and a mathematical description. In. Waltham, MA: Brandeis University.
Govind CK, Atwood HL, Maynard DM (1975) Innervation and neuronmuscular physiology of intrinsic foregut muscles in the blue crab and spiny lobster. J Comp Physiol 96:185-204.
Govind CK, Lingle CJ (1987) Neuromuscular organization and pharmacology. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 31-48. Berlin: Springer-Verlag.
Graubard K (1978) Synaptic transmission without action potentials: input-output properties of a nonspiking presynaptic neuron. J Neurophysiol 41:1014-1025.
Graubard K, Calvin WH (1979) Presynaptic dentrites: Implications of spikeless synaptic transmission and dendritic geometry. In: The Neurosciences: Fourth Study Program (Schmitt FO, Worden FG, eds), pp 317-331. Cambridge, MA: MIT Press.
Graubard K, Hartline DK (1987) Full-wave rectification from a mixed electrical-chemical synapse. Science 237:535-537.
Graubard K, Hartline DK (1991) Voltage clamp analysis of intact stomatogastric neurons. Brain Res 557:241-254.
Graubard K, Raper JA, Hartline DK (1980) Graded synaptic transmission between spiking neurons. Proc Natl Acad Sci U S A 77:3733-3735.
Graubard K, Raper JA, Hartline DK (1983) Graded synaptic transmission between identified spiking neurons. J Neurophysiol 50:508-521.
Graubard K, Ross WN (1985) Regional distribution of calcium influx into bursting neurons detected with arenazo III. Proc Natl Acad Sci USA 82:5565-5569.
Greenberg I, Manor Y (2005) Synaptic depression in conjunction with a-current channels promote phase constancy in a rhythmic network. J Neurophysiol 93:656-677.
Guckenheimer J, Gueron S, Harris-Warrick RM (1993) Mapping the dynamics of a bursting neuron. Philos Trans R Soc Lond B Biol Sci 341:345-359.
Guckenheimer J, Harris-Warrick R, Peck J, Willms A (1997) Bifurcation, bursting, and spike frequency adaptation. J Comput Neurosci 4:257-277.
Guckenheimer J, Rowat P (1997) Dynamical systems analysis of real neuronal networks. In: Neuron, Networks, and Motor Behavior (Stein PSG, Grillner S, Selverston AI, Stuart DG, eds), pp 151-163. Cambridge, MA: MIT Press.
Gutovitz S, Birmingham JT, Luther JA, Simon DJ, Marder E (2001) GABA enhances transmission at an excitatory glutamatergic synapse. J Neurosci 21:5935-5943.
Harris-Warrick RM (1988) Chemical modulation of central pattern generators. In: Neural Control of Rhythmic Movements (Cohen AH, Rossignol S, Grillner S, eds), pp 285-331. New York: John Wiley & Sons.
Harris-Warrick RM (1989) Forskolin reduces a transient potassium current in lobster neurons by a cAMP-independent mechanism. Brain Res 489:59-66.
Harris-Warrick RM (1990) Mechanisms for neuromodulation of biological neural networks. In: Advances in Neural Network Information and Processing Systems (Touretsky DS, ed), pp 18-27. San Mateo, CA: Morgan Kaufman.
Harris-Warrick RM (1993) Pattern generation. Curr Opin Neurobiol 3:982-988.
Harris-Warrick RM (1994) Modulation of small neural networks in the crustacean stomatogastric ganglion. In: Cellular and Molecular Mechanisms Underlying Higher Neural Function (Selverston AI, Ascher P, eds), pp 111-126. New York: John Wiley & Sons.
Harris-Warrick RM (2002) Voltage-sensitive ion channels in rhythmic motor systems. Curr Opin Neurobiol 12:646-651.
Harris-Warrick RM, Baro DJ, Coniglio LM, Johnson BR, Levini RM, Peck JH, Zhang B (1997) Chemical modulation of crustacean stomatogastric pattern generator networks. In: Neuron, Networks and Motor Behavior (Stein PSG, Grillner S, Selverston AI, Stuart DG, eds), pp 209-215. Cambridge, MA: MIT Press.
Harris-Warrick RM, Coniglio LM, Barazangi N, Guckenheimer J, Gueron S (1995) Dopamine modulation of transient potassium current evokes phase shifts in a central pattern generator network. J Neurosci 15:342-358.
Harris-Warrick RM, Coniglio LM, Levini RM, Gueron S, Guckenheimer J (1995) Dopamine modulation of two subthreshold currents produces phase shifts in activity of an identified motoneuron. J Neurophysiol 74:1404-1420.
Harris-Warrick RM, Flamm RE (1986) Chemical modulation of a small central pattern generator circuit. TINS 9:432-437.
Harris-Warrick RM, Flamm RE (1987) Multiple mechanisms of bursting in a conditional bursting neuron. J Neurosci 7:2113-2128.
Harris-Warrick RM, Flamm RE, Johnson BR, Katz PS (1989) Modulation of neural circuits in crustacea. Am Zool 29:1305-1320.
Harris-Warrick RM, Flamm RE, Johnson BR, Katz PS, Kiehn O, Zhang B (1992) Neuromodulation of small neural networks in Crustacea. In: Proceedings of Neurotox '91 (Duce IR, ed), pp 305-321. Oxford: Elsevier Science Publishers.
Harris-Warrick RM, Johnson BR (1987) Potassium channel blockade induces rhythmic activity in a conditional burster neuron. Brain Res 416:381-386.
Harris-Warrick RM, Johnson BR (1989) Motor pattern networks: Flexible foundations for rhythmic pattern production. In: Perpectives in Neural Systems and Behavior (Carew T, Kelley D, eds), pp 51-71. New York: Alan R. Liss.
Harris-Warrick RM, Johnson BR, Peck JH, Kloppenburg P, Ayali A, Skarbinski J (1998) Distributed effects of dopamine modulation in the crustacean pyloric network. Ann N Y Acad Sci 860:155-167.
Harris-Warrick RM, Katz PS (1990) Sensory modulation of motor pattern generators in the crab stomatogastric ganglion. In: Frontiers in Crustacean Neurobiology (Wiese K, Krenz W-D, Tautz J, Reichert H, Mulloney B, eds), pp 431-438. Basel: Verlag.
Harris-Warrick RM, Marder E (1991) Modulation of neural networks for behavior. Annu Rev Neurosci 14:39-57.
Harris-Warrick RM, Nagy F, Nusbaum MP (1992) Neuromodulation of stomatogastric networks by identified neurons and transmitters. In: Dynamic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins M, eds), pp 87-138. Cambridge, MA: MIT Press.
Hartenstein V (1997) Development of the insect stomatogastric nervous system. Trends Neurosci 20:421-427.
Hartline DK (1979) Pattern generation in the lobster (Panulirus) stomatogastric ganglion. II. Pyloric network simulation. Biol Cybern 33:223-236.
Hartline DK (1987a) Modeling stomatogastric ganglion. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 181-197. Berlin: Springer-Verlag.
Hartline DK (1987b) Plateau potential. In: Encyclopedia of Neuroscience (Adelman G, ed), pp 955-956. Boston: Birkhauser.
Hartline DK (1989) Simulation of restricted neural networks with reprogrammable neurons. IEEE Trans Circuits Systems 36:653-660.
Hartline DK (1991) The neuron as a reprogrammable computing element in neural networks. In: Advances in Control Networks and Large Scale Parallel Distributed Processing Models (Fraser M, ed), pp 58-82. Norwood, NJ: Ablex.
Hartline DK, Castelfranco AM (2003) Simulations of voltage clamping poorly space-clamped voltage-dependent conductances in a uniform cylindrical neurite. J Comput Neurosci 14:253-269.
Hartline DK, Gassie DV, Jones BR (1993) Effects of soma isolation on outward currents measured under voltage clamp in spiny lobster stomatogastric motor neurons. J Neurophysiol 69:2056-2071.
Hartline DK, Gassie DV, Jr. (1979) Pattern generation in the lobster (Panulirus) stomatogastric ganglion. I. Pyloric neuron kinetics and synaptic interactions. Biol Cybern 33:209-222.
Hartline DK, Gassie DV, Sirchia CD (1987) PY cell types in the stomatogastric ganglion of Panulirus. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 75-77. Berlin: Springer-Verlag.
Hartline DK, Graubard K (1992) Cellular and synaptic properties in the crustacean stomatogastric nervous system. In: Dymanic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins M, eds), pp 31-86. Cambridge, MA: MIT Press.
Hartline DK, Maynard DM (1975) Motor patterns in the stomatogastric ganglion of the lobster Panulirus argus. J Exp Biol 62:405-420.
Hartline DK, Russell DF (1984) Endogenous burst capability in a neuron of the gastric mill pattern generator of the spiny lobster Panulirus interruptus. J Neurobiol 15:345-364.
Hartline DK, Russell DF, Raper JA, Graubard K (1988) Special cellular and synaptic mechanisms in motor pattern generation. Comp Biochem Physiol C 91:115-131.
Heinzel HG (1987) Appendix B: Spontaneous and proctolin-induced modes of operation of the isolated gastric oscillator and of the gastric mill. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds). Berlin: Springer-Verlag.
Heinzel HG (1988a) Gastric mill activity in the lobster. I. Spontaneous modes of chewing. J Neurophysiol 59:528-550.
Heinzel HG (1988b) Gastric mill activity in the lobster. II. Proctolin and octopamine initiate and modulate chewing. J Neurophysiol 59:551-565.
Heinzel HG (1988c) Sensory control of the stomatogastric system in the crab Cancer pagurus. In: Sense Organs, Interfaces Between Environment and Behavior (Elsner N, Barth G, eds), pp 82-115. New York: Thieme Stuttgart.
Heinzel HG (1990a) The cooperation of several oscillators in the stomatogastric system of the crab Cancer pagurus. In: Frontiers in Crustacean Neurobiology (Wiese K, Krenz W-D, Tautz J, Reichert H, Mulloney B, eds), pp 455-462. Basel: Verlag.
Heinzel HG (1990b) Modulation and sensory control of the crustacean gastric mill. In: Neural Mechanisms of Behavior (Erber J, Menzel R, Pfluger H, Todt D, eds), pp 61-66. Stuttgart: Georg Thieme Verlag.
Heinzel HG, Bohm H, Weigeldt D (1993) The cooperation of neural nerworks as the basis for the plasticity of rhythmic movements. Verh Dtsch Zool Ges 86:165-176.
Heinzel HG, Selverston AI (1987) Reset analysis of the gastric central pattern generator in the lobster. In: New Frontiers in Crustacean Neurobiology (Elsner N, Creutzfeldt O, eds), p 67. New York: Thieme Stuttgart.
Heinzel HG, Selverston AI (1988) Gastric mill activity in the lobster. III. Effects of proctolin on the isolated central pattern generator. J Neurophysiol 59:566-585.
Heinzel HG, Weimann JM, Marder E (1993) The behavioral repertoire of the gastric mill in the crab, Cancer pagurus: an in situ endoscopic and electrophysiological examination. J Neurosci 13:1793-1803.
Hemple CM, Vincent P, Adams SR, Tsien RY, Selverston AI (1996) Spatio-temporal dynamics of cyclic AMP signals in an intact neural circuit. Nature 384.
Hermann A (1979a) Generation of a fixed motor pattern. I. Details of synaptic interconnections of pyloric neurons in the stomatogastric ganglion of the crab, Cancer pagurus. J Comp Physiol 130:221-228.
Hermann A (1979b) Generation of a fixed motor pattern. II. Electrical properties and synaptic characteristics of pyloric neurons in the stomatogastric ganglion of the crab, Cancer pagurus. J Comp Physiol 130:229-239.
Hermann A (1981) Action of caffeine on pyloric motorneurons in the crustacean stomatogastric ganglion. Comp Biochem Physiol C 69:191-197.
Hermann A, Dando MR (1977) Mechanisms of command fibre operation onto butsting pacemaker neurons in the stomatogastric ganglion of the crab, Cancer pagurus. J Comp Physiol 114:15-33.
Hermann A, Wadepuhl M (1987) Ionic basis of pacemaker activity in stomatogastric neurons. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 101-107. Berlin: Springer-Verlag.
Hinton DJ, Corey S (1979) The mouthparts and digestive tract in the larval stages of Homarus americanus. Can J Zool 57:1413-1423.
Hooper SL (1997a) Phase maintenance in the pyloric pattern of the lobster (Panulirus interruptus) stomatogastric ganglion. J Comput Neurosci 4:191-205.
Hooper SL (1997b) The pyloric pattern of the lobster (Panulirus interruptus) stomatogastric ganglion comprises two phase-maintaining subsets. J Comput Neurosci 4:207-219.
Hooper SL (1998) Transduction of temporal patterns by single neurons. Nat Neurosci 1:720-726.
Hooper SL, Buchman E, Hobbs KH (2002) A computational role for slow conductances: single-neuron models that measure duration. Nat Neurosci 5:552-556.
Hooper SL, DiCaprio RA (2004) Crustacean motor pattern generator networks. Neurosignals 13:50-69.
Hooper SL, Marder E (1984) Modulation of a central pattern generator by two neuropeptides, proctolin and FMRFamide. Brain Res 305:186-191.
Hooper SL, Marder E (1987) Modulation of the lobster pyloric rhythm by the peptide proctolin. J Neurosci 7:2097-2112.
Hooper SL, Moulins M (1989) Switching of a neuron from one network to another by sensory-induced changes in membrane properties. Science 244:1587-1589.
Hooper SL, Moulins M (1990) Cellular and synaptic mechanisms responsible for a long-lasting restructuring of the lobster pyloric network. J Neurophysiol 64:1574-1589.
Hooper SL, Moulins M, Nonnotte L (1990) Sensory input induces long-lasting changes in the output of the lobster pyloric network. J Neurophysiol 64:1555-1573.
Hooper SL, O'Neil MB, Wagner R, Ewer J, Golowasch J, Marder E (1986) The innervation of the pyloric region of the crab, Cancer borealis: homologous muscles in decapod species are differently innervated. J Comp Physiol [A] 159:227-240.
Hoover NJ, Weaver AL, Harness PI, Hooper SL (2002) Combinatorial and cross-fiber averaging transform muscle electrical responses with a large stochastic component into deterministic contractions. J Neurosci 22:1895-1904.
Hurley LM, Graubard K (1998) Pharmacologically and functionally distinct calcium currents of stomatogastric neurons. J Neurophysiol 79:2070-2081.
Icely JD, Nott JA (1984) On the morphology and fine structure of the alimentary canal of Corophium volutator (Pallus) (Crustacea: Amphipoda). Phil Trans Roy Soc B 306:49-78.
Jackel C, Krenz W, Nagy F (1994) Bicuculline/Baclofen-Insensitive Gaba Response in Crustacean Neurones in Culture. J Exp Biol 191:167-193.
Jahromi SS, Govind CK (1976) Ultrastructural diversity in motor units of crustacean stomach muscles. Cell Tissue Res 166:159-166.
Johannen KC (1991) Rhythmic motor patterns and their modulation in the intact lobster. In: Biology. Maine: Bowdoin College.
Johnson BR, Harris-Warrick RM (1990) Aminergic modulation of graded synaptic transmission in the lobster stomatogastric ganglion. J Neurosci 10:2066-2076.
Johnson BR, Harris-Warrick RM (1997) Amine modulation of glutamate responses from pyloric motor neurons in lobster stomatogastric ganglion. J Neurophysiol 78:3210-3221.
Johnson BR, Hooper SL (1992) Overview of thestomatogastric nervous system. In: Dynamic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins M, eds), pp 1-30. Cambridge, MA: MIT Press.
Johnson BR, Kloppenburg P, Harris-Warrick RM (2003) Dopamine modulation of calcium currents in pyloric neurons of the lobster stomatogastric ganglion. J Neurophysiol 90:631-643.
Johnson BR, Peck JH, Harris-Warrick RM (1991) Temperature sensitivity of graded synaptic transmission in the lobster stomatogastric ganglion. J Exp Biol 156:267-285.
Johnson BR, Peck JH, Harris-Warrick RM (1992) Elevated temperature alters the ionic dependence of amine-induced pacemaker activity in a conditional burster neuron. J Comp Physiol [A] 170:201-209.
Johnson BR, Peck JH, Harris-Warrick RM (1993a) Amine modulation of electrical coupling in the pyloric network of the lobster stomatogastric ganglion. J Comp Physiol [A] 172:715-732.
Johnson BR, Peck JH, Harris-Warrick RM (1993b) Dopamine induces sign reversal at mixed chemical-electrical synapses. Brain Res 625:159-164.
Johnson BR, Peck JH, Harris-Warrick RM (1994) Differential modulation of chemical and electrical components of mixed synapses in the lobster stomatogastric ganglion. J Comp Physiol [A] 175:233-249.
Johnson BR, Peck JH, Harris-Warrick RM (1995) Distributed amine modulation of graded chemical transmission in the pyloric network of the lobster stomatogastric ganglion. J Neurophysiol 74:437-452.
Jones BR, Hartline DK (1991) Unusual properties of outward currents in lobster stomatogastric neurons. Biophys J 59:267.
Jorge-Rivera J, Marder YE (1997) Allatostatin decreases stomatogastric neuromuscular transmission in the crab Cancer borealis. J Exp Biol 200:2937-2946.
Jorge-Rivera JC, Marder E (1996) TNRNFLRFamide and SDRNFLRFamide modulate muscles of the stomatogastric system of the crab Cancer borealis. J Comp Physiol [A] 179:741-751.
Jorge-Rivera JC, Sen K, Birmingham JT, Abbott LF, Marder E (1998) Temporal dynamics of convergent modulation at a crustacean neuromuscular junction. J Neurophysiol 80:2559-2570.
Katz PS (1989) Motor pattern modulation by serotonergic sensory cells in the stomatogastric nervous system. In. Ithaca, NY: Cornell University.
Katz PS (1991) Neuromodulation and the evolution of a simple motor system. SINS 3:379-389.
Katz PS (1995) Neuromodulation and motor pattern generation in crustacean stomatogastric nervous system. In: Neural Control of Movements (Ferrell WR, Proske U, eds), pp 277-283. New York: Plenum press.
Katz PS, Eigg MH, Harris-Warrick RM (1989) Serotonergic/cholinergic muscle receptor cells in the crab stomatogastric nervous system. I. Identification and characterization of the gastropyloric receptor cells. J Neurophysiol 62:558-570.
Katz PS, Frost WN (1996) Intrinsic neuromodulation: altering neuronal circuits from within. Trends Neurosci 19:54-61.
Katz PS, Harris-Warrick RM (1989a) A new role for proprioceptive geedback to CPGS: Neuromodulation by serotonergic/cholinergic mechanosendory afferents to the stomatogastric ganglion of crabs. In: Neural Mechanisms of Behavior (Erber J, Menzel R, Pfluger H, Todt D, eds), p 229. Stuttgart: Georg Thieme Verlag.
Katz PS, Harris-Warrick RM (1989b) Serotonergic/cholinergic muscle receptor cells in the crab stomatogastric nervous system. II. Rapid nicotinic and prolonged modulatory effects on neurons in the stomatogastric ganglion. J Neurophysiol 62:571-581.
Katz PS, Harris-Warrick RM (1990a) Actions of identified neuromodulatory neurons in a simple motor system. Trends Neurosci 13:367-373.
Katz PS, Harris-Warrick RM (1990b) Neuromodulation of the crab pyloric central pattern generator by serotonergic/cholinergic proprioceptive afferents. J Neurosci 10:1495-1512.
Katz PS, Harris-Warrick RM (1991) Recruitment of crab gastric mill neurons into the pyloric motor pattern by mechanosensory afferent stimulation. J Neurophysiol 65:1442-1451.
Katz PS, Kirk MD, Govind CK (1993) Facilitation and depression at different branches of the same motor axon: Evidence for presynaptic differences in release. J Neurosci 13:3075-3089.
Katz PS, Tazaki K (1992) Comparative and evolutionary aspects of the crustacean stomatogastric system. In: Dynamic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins M, eds), pp 221-262. Cambridge, MA: MIT Press.
Kehoe J, Marder E (1976) Identification and effects of neural transmitters in invertebrates. Annu Rev Pharmacol Toxicol 16:245-268.
Kennedy MB, Marder E (1992) Cellular and molecular mechanisms of neural plasticity. In: An Introduction to Molecular Neurobiology (Hall ZH, ed), pp 463-495. Sunderland, MA: Sinauer Associates, Inc.
Kepler TB, Abbott LF, Marder E (1991) Order reduction for dynamical systems describing the behavior of complex neurons. In: Advances in Neural Information Processing Systems (Lippmann RP, Moody JE, Touretzky D, eds), pp 55-61. San Mateo, CA: Morgan Kaufman Publishers.
Kepler TB, Abbott LF, Marder E (1992) Reduction of conductance-based neuron models. Biol Cybern 66:381-387.
Kepler TB, Marder E (1993) Spike initiation and propagation on axons with slow inward currents. Biol Cybern 68:209-214.
Kepler TB, Marder E, Abbott LF (1990) The effect of electrical coupling on the frequency of model neuronal oscillators. Science 248:83-85.
Kiehn O (1991) Plateau potentials and active integration in the 'final common pathway' for motor behaviour. Trends Neurosci 14:68-73.
Kiehn O, Harris-Warrick RM (1992a) 5-HT modulation of hyperpolarization-activated inward current and calcium-dependent outward current in a crustacean motor neuron. J Neurophysiol 68:496-508.
Kiehn O, Harris-Warrick RM (1992b) Serotonergic stretch receptors induce plateau properties in a crustacean motor neuron by a dual-conductance mechanism. J Neurophysiol 68:485-495.
Kiehn O, Kjaerulff O, Tresch MC, Harris-Warrick RM (2000) Contributions of intrinsic motor neuron properties to the production of rhythmic motor output in the mammalian spinal cord. Brain Res Bull 53:649-659.
Kilman V, Fenelon VS, Richards KS, Thirumalai V, Meyrand P, Marder E (1999) Sequential developmental acquisition of cotransmitters in identified sensory neurons of the stomatogastric nervous system of the lobsters, Homarus americanus and Homarus gammarus. J Comp Neurol 408:318-334.
Kilman VL, Marder E (1996) Ultrastructure of the stomatogastric ganglion neuropil of the crab, Cancer borealis. J Comp Neurol 374:362-375.
Kim M, Baro DJ, Lanning CC, Doshi M, Farnham J, Moskowitz HS, Peck JH, Olivera BM, Harris-Warrick RM (1997) Alternative splicing in the pore-forming region of shaker potassium channels. J Neurosci 17:8213-8224.
King DG (1976a) Organization of crustacean neuropil. I. Patterns of synaptic connections in lobster stomatogastric ganglion. J Neurocytol 5:207-237.
King DG (1976b) Organization of crustacean neuropil. II. Distribution of synaptic contacts on identified motor neurons in lobster stomatogastric ganglion. J Neurocytol 5:239-266.
Kloppenburg P, Levini RM, Harris-Warrick RM (1999) Dopamine modulates two potassium currents and inhibits the intrinsic firing properties of an identified motor neuron in a central pattern generator network. J Neurophysiol 81:29-38.
Kloppenburg P, Zipfel WR, Webb WW, Harris-Warrick RM (2000) Highly localized Ca(2+) accumulation revealed by multiphoton microscopy in an identified motoneuron and its modulation by dopamine. J Neurosci 20:2523-2533.
Kopell N, Abbott LF, Soto-Trevino C (1998) On the behavior of a neural oscillator electrically coupled to a bistable element. Physica D 121:367-395.
Krenz WD, Nguyen D, Perez-Acevedo NL, Selverston AI (2000) Group I, II, and III mGluR compounds affect rhythm generation in the gastric circuit of the crustacean stomatogastric ganglion. J Neurophysiol 83:1188-1201.
Kunze JC, Anderson DT (1976) Functional morphology of the mouthparts and gastric mill in the hermit crabs Clibanaruis taeniatus (Milne Edwards), Clibanarius virescens (Karuss), Paguristes sqamosus McCullock and Dardanus setifer (Milne Edwards) (Anomura: Paguridae). Aust J Mar Freshw Res 30:683-722.
Kushner PD (1979) Location of interganglionic neurons in the stomatogastric system of the spiny lobster. J Neurocytol 8:81-94.
Kushner PD (1987) Cocaine activates the motor output of the stomatogastric ganglion. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 304-306. Berlin: Springer-Verlag.
Kushner PD, Barker DL (1983) A neurochemical description of the dopaminergic innervation of the stomatogastric ganglion of the spiny lobster. J Neurobiol 14:17-28.
Kushner PD, Maynard EA (1977) Localization of monamine fluorescence in the stomatogastric nervous system of lobsters. Brain Res 129:13-28.
Larimer JL (1988) The command hypothesis: a new view using an old example. Trends Neurosci 11:506-510.
Larimer JL, Kennedy D (1966) Visceral afferent signals in the crayfish stomatogastric ganglion. J Exp Biol 44:345-354.
Le Feuvre Y, Fenelon VS, Meyrand P (1999) Central inputs mask multiple adult neural networks within a single embryonic network. Nature 402:660-664.
Le Feuvre Y, Fenelon VS, Meyrand P (2001) Ontogeny of modulatory inputs to motor networks: early established projection and progressive neurotransmitter acquisition. J Neurosci 21:1313-1326.
LeMasson G, Marder E, Abbott LF (1993) Activity-dependent regulation of conductances in model neurons. Science 259:1915-1917.
Levi R, Samoilova M, Selverston AI (2003) Calcium signaling components of oscillating invertebrate neurons in vitro. Neuroscience 118:283-296.
Li L, Kelley WP, Billimoria CP, Christie AE, Pulver SR, Sweedler JV, Marder E (2003) Mass spectrometric investigation of the neuropeptide complement and release in the pericardial organs of the crab, Cancer borealis. J Neurochem 87:642-656.
Li L, Pulver SR, Kelley WP, Thirumalai V, Sweedler JV, Marder E (2002) Orcokinin peptides in developing and adult crustacean stomatogastric nervous systems and pericardial organs. J Comp Neurol 444:227-244.
Lingle C (1980) The sensitivity of decapod foregut muscles to acetylcholine and glutamate. J Comp Physiol 138:187-199.
Lingle C (1981) The modulatory action of dopamine on crustacean foregut neuromuscular preparations. J Exp Biol 94:285-299.
Lingle C (1983a) Blockade of cholinergic channels by chlorisondamine on a crustacean muscle. J Physiol (Lond) 339:395-417.
Lingle C (1983b) Different types of blockade of crustacean acetylcholine-induced currents. J Physiol (Lond) 339:419-437.
Lingle C, Auerbach A (1983a) Comparison of excitatory currents activated by different transmitters on crustacean muscle. I. Acetylcholine-activated channels. J Gen Physiol 81:547-569.
Lingle C, Auerbach A (1983b) Comparison of excitatory currents activated by different transmitters on crustacean muscle. II. Glutamate-activated currents and comparison with acetylcholine currents present on the same muscle. J Gen Physiol 81:571-588.
Lingle C, Eisen JS, Marder E (1981) Block of glutamatergic excitatory synaptic channels by chlorisondamine. Mol Pharmacol 19:349-353.
Lingle C, Marder E (1981) A glutamate-activated chloride conductance on a crustacean muscle. Brain Res 212:481-488.
Lingle C, Marder E, Nathanson JA (1982) The role of cyclic nucleotides in invertebrates. In: Cyclic Necleotides II: Physiology and Pharmacology, Handbook of Pharmacology (Kebabian J, Nathanson JA, eds), pp 787-845. Berlin: Springer-Verlag.
Liu Z, Golowasch J, Marder E, Abbott LF (1998) A model neuron with activity-dependent conductances regulated by multiple calcium sensors. J Neurosci 18.
Lnenicka GA, Atwood HL (1985) Age-dependent long-term adaptation of crayfish phasic motor axon synapses to altered activity. J Neurosci 5:459-467.
Lnenicka GA, Atwood HL, Marin L (1986) Morphological transformation of synaptic terminals of a phasic motoneuron by long-term tonic stimulation. J Neurosci 6:2252-2258.
LoFaro T, Kopell N, Marder E, Hooper SL (1994a) The effect of ih currents on bursting pattern of pairs of coupled neurons. In: Computation in Neurons and Neural Systems (Eeckman FH, ed), pp 15-20. Boston: Kluwer Academic Publishers.
LoFaro T, Kopell N, Marder E, Hooper SL (1994b) Subharmonic coordination in networks of neurons with slow conductances. Neural Comp 6:69-84.
Lovett DL, Felder DL (1989) Ontogeny of gut mophology in white shrimpPenaeus setiferus (Decapoda: Penaeidae). J Morph 201:253-272.
Lovett DL, Felder DL (1990) Ontogeny of kinematics in the gut of the white shrimp Penaeus setiferus (Decapoda: Penaeidae). J Crust Biol 10:53-68.
Luther JA, Robie AA, Yarotsky J, Reina C, Marder E, Golowasch J (2003) Episodic bouts of activity accompany recovery of rhythmic output by a neuromodulator- and activity-deprived adult neural network. J Neurophysiol 90:2720-2730.
MacLean JN, Zhang Y, Johnson BR, Harris-Warrick RM (2003) Activity-independent homeostasis in rhythmically active neurons. Neuron 37:109-120.
Macmillan DL, Wales W, Laverack MS (1976) Mandibular movement and their control in Homarus gammarus. III. Effects of load changes. J Comp Physiol 106:207-221.
Mamiya A, Manor Y, Nadim F (2003) Short-term dynamics of a mixed chemical and electrical synapse in a rhythmic network. J Neurosci 23:9557-9564.
Mamiya A, Nadim F (2004) Dynamic interaction of oscillatory neurons coupled with reciprocally inhibitory synapses acts to stabilize the rhythm period. J Neurosci 24:5140-5150.
Mancillas JR, Selverston AI (1984) Neuropeptide modulation of photosensitivity. II. Physiological and anatomical effects of substance P on the lateral eye of Limulus. J Neurosci 4:847-859.
Manor Y, Bose A, Booth V, Nadim F (2003) Contribution of synaptic depression to phase maintenance in a model rhythmic network. J Neurophysiol 90:3513-3528.
Manor Y, Nadim F (2001a) Frequency regulation demonstrated by coupling a model and a biological neuron. Neurocomputing 38-40:269-278.
Manor Y, Nadim F (2001b) Synaptic depression mediates bistability in neuronal networks with recurrent inhibitory connectivity. J Neurosci 21:9460-9470.
Manor Y, Nadim F, Abbott LF, Marder E (1997) Temporal dynamics of graded synaptic transmission in the lobster stomatogastric ganglion. J Neurosci 17:5610-5621.
Manor Y, Nadim F, Epstein S, Ritt J, Marder E, Kopell N (1999) Network oscillations generated by balancing graded asymmetric reciprocal inhibition in passive neurons. J Neurosci 19:2765-2779.
Marder E (1974) Acetylcholine as an excitatory neuromuscular transmitter in the stomatogastric system of the lobster. Nature 251:730-731.
Marder E (1976) Cholinergic motor neurones in the stomatogastric system of the lobster. J Physiol (Lond) 257:63-86.
Marder E (1982) Review of neuropharmacology of incects. In: Ciba Foundation Symposium, pp 924-925: Pitman Ltd. Science.
Marder E (1984a) Mechanisms underlying neurotransmitter modulation of neuronal circuit. TINS 7:48-53.
Marder E (1984b) Roles for electrical coupling in neural circuits as revealed by selective neuronal deletions. J Exp Biol 112:147-167.
Marder E (1987a) Neurotransmitters and neuromodulators. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 263-300. Berlin: Springer-Verlag.
Marder E (1987b) The stomatogastric ganglion. In: The Encyclopedia of Neuroscience (Adelman G, ed), pp 1143-1144. Boston: Birkhauser.
Marder E (1988) Modulating a neuronal network [news]. Nature 335:296-297.
Marder E (1989a) Introduction: Modulation of neural networks underlying behavior. In: SINS (Altman J, Marder E, eds), pp 3-4.
Marder E (1989b) Modulation of neural networks. In: Neural Mechanisms of Behavior (Erber J, Menzel R, Pfluger H-J, Todt D, eds), pp 55-60. Stuttgart: Georg Thieme Verlag.
Marder E (1991a) Modifiability of pattern generation. Curr Opin Neuronbiol 1:571-576.
Marder E (1991b) A new act to swallow [news; comment]. Nature 351:18.
Marder E (1991c) Plateaus in time. Curr Biol 1:326-327.
Marder E (1993) Modulating membrane properties of neurons: Role in information processing. In: Exploring Brain Functions: Models in Neuroscience (Poggio TA, Glaser DA, eds), pp 27-42. West Sussex, UK: John Wiley & Sons Ltd.
Marder E (1994a) Dynamic modulation of neurons and networks. In: Advances in Neural Information Processing Systems (Cowan JD, Tesauro G, Alspector J, eds), pp 511-518. San Francisco: Morgan Kaufman Publishers.
Marder E (1994b) Polymorphic neural networks. Curr Biol 4:752-754.
Marder E (1996) Neural modulation: following your own rhythm. Curr Biol 6:119-121.
Marder E (1997) Computational dynamics in rhythmic neural circuits. The Neuroscientist 3:295-302.
Marder E (1998a) Electrical synapses: beyond speed and synchrony to computation. Curr Biol 8:R795-797.
Marder E (1998b) From biophysics to models of network function. Annu Rev Neurosci 21:25-45.
Marder E (2000a) Bitter and twisted. Curr Biol 10:R1.
Marder E (2000b) Motor pattern generation. Curr Opin Neurobiol 10:691-698.
Marder E (2000c) My word. Colored chalk. Curr Biol 10:R613.
Marder E (2001) Moving rhythms. Nature 410:755.
Marder E (2002a) Developmental biology: senseless motion. Nature 416:131-132.
Marder E (2002b) Non-mammalian models for studying neural development and function. Nature 417:318-321.
Marder E, Abbott LF (1995) Theory in motion. Curr Opin Neurobiol 5:832-840.
Marder E, Abbott LF, Buchholtz F, Epstein IR, Golowasch J, Hooper SL, Kepler TB (1993) Physiological insights from cellular and network models of the stomatogastric nervous systems of lobsters and crabs. Am Zool 33:29-39.
Marder E, Abbott LF, Kepler TB, Hooper SL (1992) Modification of oscillator function by electrical coupling to nonoscillatory neurons. In: Induced Rhythms in the Brain (Baar E, Bullock TH, eds), pp 287-296. Boston: Birkhauser.
Marder E, Abbott LF, LeMasson G, O'Neil MB, Renaud-LeMasson S, Sharp AA (1994) Biological simulators: Computer modification of neuronal conductances and formation of novel networks. In: Enabling Technologies for Cultured Neural Networks (Stenger DA, McKenna TM, eds), pp 261-275. San Diego: Academic Press.
Marder E, Abbott LF, Sharp AA, Kopell N (1993) Electrical coupling in networks containing oscillators. In: Neuroscience: From Neural Networks to Artificial Intelligence (Rudomin P, Arbib MA, Cervates-Peres F, Romo R, eds), pp 33-42. Berlin: Springer-Verlag.
Marder E, Abbott LF, Turrigiano GG, Liu Z, Golowasch J (1996) Memory from the dynamics of intrinsic membrane currents. Proc Natl Acad Sci U S A 93:13481-13486.
Marder E, Bucher D (2001) Central pattern generators and the control of rhythmic movements. Curr Biol 11:R986-996.
Marder E, Calabrese RL (1996) Principles of rhythmic motor pattern generation. Physiol Rev 76:687-717.
Marder E, Christie AE, Kilman VL (1995) Functional organization of cotransmission systems: lessons from small nervous systems. Invert Neurosci 1:105-112.
Marder E, Eisen JS (1984a) Electrically coupled pacemaker neurons respond differently to same physiological inputs and neurotransmitters. J Neurophysiol 51:1362-1374.
Marder E, Eisen JS (1984b) Transmitter identification of pyloric neurons: electrically coupled neurons use different transmitters. J Neurophysiol 51:1345-1361.
Marder E, Golowasch J, Richards KS, Soto-Trevino C, Miller WL, Abbott LF (1999) Self-assembly of oscillatory neurons and networks. In: Foundations and tools for neural modeling (Mira M, Sanchez-Andres JV, eds), pp 1-11. Berlin: Springer-Verlag.
Marder E, Hooper SL (1985) Neurotransmitter modulation of the stomatogastric ganglion of decopod crustaceans. In: Model neural networks and behavior (Selverston A, ed), pp 319-337: Plenum.
Marder E, Hooper SL, Siwicki KK (1986) Modulatory action and distribution of the neuropeptide proctolin in the crustacean stomatogastric nervous system. J Comp Neurol 243:454-467.
Marder E, Jorge-Rivera JC, Kilman V, Weimann JM (1997) Peptidergic modulation of synaptic transmission in a rhythmic motor system. In: Advances in Organ Biology, pp 213-233: JAI Press, Inc.
Marder E, Kopell N, Sigvardt K (1997) How computation aids in understanding biological networks. In: Neuron, Networks and Motor Behavior (Stein PSG, Grillner S, Selverston AI, Stuart DG, eds), pp 139-160. Cambridge, MA: MIT Press.
Marder E, Manor Y, Nadim F, Bartos M, Nusbaum MP (1998) Frequency control of a slow oscillatory network by a fast rhythmic input: pyloric to gastric mill interactions in the crab stomatogastric nervous system. Ann N Y Acad Sci 860:226-238.
Marder E, Meyrand M (1989) Chemical modulation of oscillatory neural circuit. In: Neuronal and Cellular Oscillators (Jacklet J, ed), pp 317-338. New York: Marcel Dekker, Inc.
Marder E, Nusbaum MP (1989) Peptidergic modulation of the motor pattern generators in the stomatogastric ganglion. In: Perspectives in Neural Systems and Behavior (Carew TC, Kelley D, eds), pp 73-91. New York: Alan R. Liss, Inc.
Marder E, O'Neil M, Grossman RI, Davis KR, Taveras JM (1983) Cholinergic actions of metrizamide. AJNR Am J Neuroradiol 4:61-65.
Marder E, Paupardin-Tritsch D (1978) The pharmacological properties of some crustacean neuronal acetylcholine, gamma-aminobutyric acid, and L-glutamate responses. J Physiol (Lond) 280:213-236.
Marder E, Paupardin-Tritsch D (1980a) The pharmacological profile of the acetylcholine response of a crustacean muscle. J Exp Biol 88:147-159.
Marder E, Paupardin-Tritsch D (1980b) Picrotoxin block of a depolarizing ACh response. Brain Res 181:223-227.
Marder E, Pearson KG (1998) Editorial overview: motor control from molecules to bedside. Curr Opin Neurobiol 8:693-696.
Marder E, Prinz AA (2002) Modeling stability in neuron and network function: the role of activity in homeostasis. Bioessays 24:1145-1154.
Marder E, Prinz AA (2003) Current compensation in neuronal homeostasis. Neuron 37:2-4.
Marder E, Richards KS (1999) Development of the peptidergic modulation of a rhythmic pattern generating network. Brain Res 848:35-44.
Marder E, Selverston AI (1992) Modeling the stomatogastric nervous system. In: Dynamic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins S, eds), pp 161-196. Cambridge, MA: MIT Press.
Marder E, Thirumalai V (2002) Cellular, synaptic and network effects of neuromodulation. Neural Netw 15:479-493.
Marder E, Weimann JM (1992) Modulatory control of multiple task processing in the stomatogastric nervous system. In: Neurobiology of Motor Programme Selection (Kien J, McCrohan C, Winlow B, eds), pp 3-19. New York: Pergamon Press.
Marder E, Weimann JM, Kepler TB, Abbott LF (1992) Computational implications of a serotonin-sensitive region of axonal membrane on a dual function motor neuron. In: Neural Systems: Analysis and Modeling (Eeckmann FH, ed), pp 377-390. Boston: Kluwer Academic Press.
Massabuau JC, Meyrand P (1996) Modulation of a neural network by physiological levels of oxygen in lobster stomatogastric ganglion. J Neurosci 16:3950-3959.
Maynard DM (1972) Simpler networks. Ann N Y Acad Sci 193:59-72.
Maynard DM, Dando MR (1974) The structure of the stomatogastric neuromuscular system in Callinectes sapidus, Homarus americanus and Panulirus argus (Decapoda Crustacea). Philos Trans R Soc Lond B Biol Sci 268:161-220.
Maynard DM, Sallee A (1970) Disturbance of feeding behavior in the spiny lobster, Panulirus argus, following bilateral ablation of the Medulla terminalis. S Vergl Physiol 66:123-140.
Maynard DM, Selverston AI (1975) Organization of the stomatogastric ganglion of the spiny lobster. IV. The pyloric system. J Comp Physiol 100.
Maynard DM, Walton KD (1975) Effects of maintained depolarization of presynaptic neurons on inhibitory transmission in lobster neuropil. J Comp Physiol 97:215-243.
Maynard EA (1971a) Electron microscopy of stomatogastric ganglion in the lobster, Homarus americanus. Tissue and Cell 3:137-149.
Maynard EA (1971b) Microscopic localization of cholinesterases in the nervous system of the lobsters, Panulirus argus and Homarus americanus. Tissue and Cell 3:215-250.
Meier T, Reichert H (1990) Neuronal development in the crustacean nervous system studied by neuron-specific antibody labelling. In: Frontiers in Crustacean Neurobiology (Wiese K, Krenz W-D, Tautz J, Reichert H, Mulloney B, eds), pp 523-579. Basel: Birkhauser Verlag.
Meiss DE (1975) The stomatogastric neuromuscular system of decapod crustacea. A comparative anatomical and physiological study. In: University of Connecticut.
Meiss DE, Norman RS (1977a) Comparative study of the stomatogastric system of several decapod crustacea. I. Skeleton. J Morph 152:21-53.
Meiss DE, Norman RS (1977b) Comparative study of the stomatogastric system of several decapod crustacea. II. Musculature. J Morph 152:55-76.
Meunier C (1992) The electrical coupling of two simple oscillators: load and acceleration effects. Biol Cybern 67:155-164.
Meyrand P (1987) Appendix: Conditional regenerative properties in the pyloric dilator muscle: Their functional implications. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 48-56. Berlin: Springer-Verlag.
Meyrand P, Faumont S, Simmers J, Christie AE, Nusbaum MP (2000) Species-specific modulation of pattern-generating circuits. Eur J Neurosci 12:2585-2596.
Meyrand P, Marder E (1991) Matching neural and muscle oscillators: control by FMRFamide-like peptides. J Neurosci 11:1150-1161.
Meyrand P, Moulins M (1986) Myogenic oscillatory activity in the pyloric rhythmic motor system of crustacea. J Comp Physiol 158:489-503.
Meyrand P, Moulins M (1988) Phylogenetic plasticity of crustacean stomatogastric circuits. I. Pyloric pattern and pyloric circuit of the shrimp Palaemon serratus. J Exp Biol 138:107-132.
Meyrand P, Simmers J, Moulins M (1991) Construction of a pattern-generating circuit with neurons of different networks [see comments]. Nature 351:60-63.
Meyrand P, Simmers J, Moulins M (1994a) Dynamic construction of a neural network from multiple pattern generators in the lobster stomatogastric nervous system. J Neurosci 14:630-644.
Meyrand P, Simmers J, Moulins M (1994b) Modulation and specification of behavior at the small circuit level. In: Flexibility and Constraint in Behavioral Systems (Greenspan RJ, Kyriacou CP, eds), pp 165-176. New York: John Wiley & Sons.
Meyrand P, Weimann JM, Marder E (1992) Multiple axonal spike initiation zones in a motor neuron: serotonin activation. J Neurosci 12:2803-2812.
Miller JP (1980) Mechanisms underlying pattern generation in lobster stomatogastric ganglion. In. San Diego: University of California.
Miller JP (1987) Pyloric mechanisms. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 109-136. Berlin: Springer-Verlag.
Miller JP, Selverston A (1979) Rapid killing of single neurons by irradiation of intracellularly injected dye. Science 206:702-704.
Miller JP, Selverston AI (1982a) Mechanisms underlying pattern generation in lobster stomatogastric ganglion as determined by selective inactivation of identified neurons. II. Oscillatory properties of pyloric neurons. J Neurophysiol 48:1378-1391.
Miller JP, Selverston AI (1982b) Mechanisms underlying pattern generation in lobster stomatogastric ganglion as determined by selective inactivation of identified neurons. IV. Network properties of pyloric system. J Neurophysiol 48:1416-1432.
Miller JP, Selverston AI (1985) Neural mechanisms for the production of the lobster pyloric motor pattern. In: Model Neural Networks and Behavior (Selverston AI, Moulins M, eds), pp 37-48. New York: Plenum Press.
Mittmann B, Scholtz G (2003) Development of the nervous system in the quot;head" of Limulus polyphemus (Chelicerata: Kiphosura): morphological evidence for a correspondence between the segments of the chelicerae and of the (first) antennae of Mandibulata. Dev Genes Evol 213:9-17.
Mizrahi A, Dickinson PS, Kloppenburg P, Fenelon V, Baro DJ, Harris-Warrick RM, Meyrand P, Simmers J (2001) Long-term maintenance of channel distribution in a central pattern generator neuron by neuromodulatory inputs revealed by decentralization in organ culture. J Neurosci 21:7331-7339.
Mocquard MF (1983) L'estomac des Crustaces podaphthalmaires. Ann Sci Nat Zool 16:1-311.
Morris J, Maynard DM (1970) Recordings from the stomatogastric nervous system in intact lobsters. Comp Biochem Physiol 33:969-974.
Morris LG, Hooper SL (1997) Muscle response to changing neuronal input in the lobster (Panulirus interruptus) stomatogastric system: spike number- versus spike frequency-dependent domains. J Neurosci 17:5956-5971.
Morris LG, Hooper SL (1998) Muscle response to changing neuronal input in the lobster (Panulirus interruptus) stomatogastric system: slow muscle properties can transform rhythmic input into tonic output. J Neurosci 18:3433-3442.
Morris LG, Hooper SL (2001) Mechanisms underlying stabilization of temporally summated muscle contractions in the lobster (Panulirus) pyloric system. J Neurophysiol 85:254-268.
Morris LG, Thuma JB, Hooper SL (2000) Muscles express motor patterns of non-innervating neural networks by filtering broad-band input. Nat Neurosci 3:245-250.
Mortin LI, Marder E (1991) Differential distribution of beta-pigment-dispersing hormone (beta-PDH)- like immunoreactivity in the stomatogastric nervous system of five species of decapod crustaceans. Cell Tissue Res 265:19-33.
Moulins M (1985) Rhythm generation in an invertebrate nervous system. In: Neurogenesis of Central Respiratory Rhythm (Bianchi AL, Devanit-Saubie M, eds), pp 33-40: M.T.P. Press.
Moulins M (1988) Les petits cerveaux des invertebres. In: Communication Cellulaire et Pathologie (Kordon C, Degos L, eds), pp 155-161. London: John Libbey Inserm.
Moulins M, Cournil I (1982) All-or-none control of the bursting properties of the pacemaker neurons of the lobster pyloric pattern generator. J Neurobiol 13:447-458.
Moulins M, Nagy F (1981a) Complex integrative functions in crustacean motor neurons. Adv Physiol 23.
Moulins M, Nagy F (1981b) Participation of an unpaired motor neurone in the bilaterally organized oesophageal rhythm in the lobsters Jasus lalandii and Panulirus vulgaris. J Exp Biol 90:205-230.
Moulins M, Nagy F (1983) Control of integration by extrinsic inputs in the crustacean pyloric circuits. J Physiol 78:739-748.
Moulins M, Nagy F (1985) Extrinsic inputs and flexibility in the motor output of the lobster pyloric neural network. In: Model Neural Networks and Behavior (Selverston AI, ed), pp 49-68. New York: Plenum Press.
Moulins M, Vedel J, Dando MR (1974) Relations fonctionnelles entre sequences motrices centralement programmees chez les crustaces decapodes. C R Acad Sci Paris D 279:1895-1898.
Moulins M, Vedel JP (1977) [Central organization of rhythmic motor activity of the foregut in decapoda Crustacea (author's transl)]. J Physiol 73:471-510.
Moulins M, Vedel JP, Nagy F (1979) Complex motor neurone in crustacea: three axonal spike initiating zones in three different ganglia. Neurosci Lett 13:231-236.
Mulloney B (1977) Organization of the stomatogastric ganglion of the spiny lobster. V. Coordination of the gastric and pyloric systems. J Comp Physiol 122:227-240.
Mulloney B (1987) Neural circuits. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 57-75. Berlin: Springer-Verlag.
Mulloney B (1991) Circuit dynamics and the strength of synapses. Curr Biol 1.
Mulloney B, Hall WM (1990) GABA-ergic neurons in the crayfish nervous system: an immunocytochemical census of the segmental ganglia and stomatogastric system. J Comp Neurol 291:383-394.
Mulloney B, Hall WM (1991) Neurons with histaminelike immunoreactivity in the segmental and stomatogastric nervous systems of the crayfish Pacifastacus leniusculus and the lobster Homarus americanus. Cell Tissue Res 266:197-207.
Mulloney B, Perkel DH, Budelli RW (1981) Motor-pattern production: interaction of chemical and electrical synapses. Brain Res 229:25-33.
Mulloney B, Selverston A (1972) Antidromic action potentials fail to demonstrate known interactions between neurons. Science 177:69-72.
Mulloney B, Selverston AI (1974a) Organization of the stomatogastric ganglion in the spiny lobster. I. Neurons driving the lateral teeth. J Comp Physiol 91:1-32.
Mulloney B, Selverston AI (1974b) Organization of the stomatogastric system in the spiny lobster. III. Coordination of the two subsets of the gastric system. J Comp Physiol 91:53-78.
Nadim F, Booth V, Bose A, Manor Y (2003) Short-term synaptic dynamics promote phase maintenance in multi-phasic rhythms. Neurocomputing 52-4:79-87.
Nadim F, Manor Y (2000) The role of short-term synaptic dynamics in motor control. Curr Opin Neurobiol 10:683-690.
Nadim F, Manor Y, Bose A (2001) Control of network output by synaptic depression. Neurocomputing 38-40:781-787.
Nadim F, Manor Y, Kopell N, Marder E (1999) Synaptic depression creates a switch that controls the frequency of an oscillatory circuit. Proc Natl Acad Sci U S A 96:8206-8211.
Nadim F, Manor Y, Nusbaum MP, Marder E (1998) Frequency regulation of a slow rhythm by a fast periodic input. J Neurosci 18:5053-5067.
Nagy E, Miller JP (1987) Appendix A: Pyloric pattern generation in Panulirus interruptus is terminated by blockade of activity through the stomatogastric nerve. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 136-139. Berlin: Springer-Verlag.
Nagy F (1981) Etude de l'expression d'actrivites motrices rhythmiques organisees par des generateurs paucineuroniques du systeme nerveux stomatogastrique des crustaces decapodes. In. Bordeaux, France: Univerity of Bordeaux I.
Nagy F, Cardi P (1994) A rhythmic modulatory gating system in the stomatogastric nervous system of Homarus gammarus. II. Modulatory control of the pyloric CPG. J Neurophysiol 71:2490-2502.
Nagy F, Cardi P, Cournil I (1994) A rhythmic modulatory gating system in the stomatogastric nervous system of Homarus gammarus. I. Pyloric-related neurons in the commissural ganglia. J Neurophysiol 71:2477-2489.
Nagy F, Dickinson PS (1983) Control of a central pattern generator by an identified modulatory interneurone in crustacea. I. Modulation of the pyloric motor output. J Exp Biol 105:33-58.
Nagy F, Dickinson PS, Moulins M (1981a) Modulatory effects of a single neurons on the activity of the pyloric pattern generator in Crustacea. Neurosci Lett 23:167-173.
Nagy F, Dickinson PS, Moulins M (1981b) Rhythmical synaptic control of axonal conduction in a lobster motor neuron. J Neurophysiol 45:1109-1124.
Nagy F, Dickinson PS, Moulins M (1988) Control by an identified modulatory neuron of the sequential expression of plateau properties of, and synaptic inputs to, a neuron in a central pattern generator. J Neurosci 8:2875-2886.
Nagy F, Moulins M (1981) Proprioceptive control of the bilaterally organized rhythmic activity of the oesophageal neuronal network in the Cape lobster Jasus lalandii. J Exp Biol 90:231-251.
Nagy F, Moulins M (1987) Extrinsic inputs. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 205-242. Berlin: Springer-Verlag.
Nakemura K, Takemoto T (1986) Morphology of stomach ossicles in Brachyura. Mem Fac Fish (Kagoshima Univ) 35:7-15.
Nargeot R (2001) Long-lasting reconfiguration of two interacting networks by a cooperation of presynaptic and postsynaptic plasticity. J Neurosci 21:3282-3294.
Nargeot R (2003) Voltage-dependent switching of sensorimotor integration by a lobster central pattern generator. J Neurosci 23:4803-4808.
Nassel DR (1999) Tachykinin-related peptides in invertebrates: a review. Peptides 20:141-158.
Nishida S, Quigley BD, Booth JD, Nemoto T, Kittaka J (1990) Comparative morphology of the mouthparts and foregut of the final-stage phyllosoma, puerulus, and postpeurulus of the rock lobster Jasus edwardsii (Decapoda Palinuridae). J Crust Biol 10:293-305.
Nonnotte L, Buisson A, Nagy F (1990) Mise au point d'une methode permettant le marquage selectif de deux neurones centraux indentifies. Arch Int Physiol Biochim.
Nonnotte L, Buisson A, Nagy F, Moulins M (1991) Combination of horseradish peroxidase and lucifer yellow staining for selective labeling of neurons at the electron microscopic level. J Histochem Cytochem 39:1579-1583.
Norris BJ, Coleman MJ, Nusbaum MP (1994) Recruitment of a projection neuron determines gastric mill motor pattern selection in the stomatogastric nervous system of the crab, Cancer borealis. J Neurophysiol 72:1451-1463.
Norris BJ, Coleman MJ, Nusbaum MP (1996) Pyloric motor pattern modification by a newly identified projection neuron in the crab stomatogastric nervous system. J Neurophysiol 75:97-108.
Nusbaum MP (1994) Presynaptic control of neurones in pattern-generating networks. Curr Opin Neurobiol 4:909-914.
Nusbaum MP (2002) Regulating peptidergic modulation of rhythmically active neural circuits. Brain Behav Evol 60:378-387.
Nusbaum MP, Beenhakker MP (2002) A small-systems approach to motor pattern generation. Nature 417:343-350.
Nusbaum MP, Blitz DM, Swensen AM, Wood D, Marder E (2001) The roles of co-transmission in neural network modulation. Trends Neurosci 24:146-154.
Nusbaum MP, Calabrese R (1993) Lobsters with a lot of nerve. New Scientist 137:24-28.
Nusbaum MP, Cournil I, Golowasch J, Marder E (1989) Modulating rhythmic motor activity with a dual-transmitter neuron. In: Neural Mechanisms of Behavior (Erber J, Menzel R, Pfluger H-J, Todt D, eds), p 228. Stuttgart: Georg Thieme Verlag.
Nusbaum MP, El Manira A, Gossard J-P, Rosingnol S (1997) Presynaptic mechanisms during rhythmic activity in vertebrates and invertebrates. In: Neuron, Networks and Motor Behavior (Stein PSG, Grillner S, Selverston AI, Stuart DG, eds), pp 237-253. Cambridge, MA: MIT Press.
Nusbaum MP, Marder E (1988) A neuronal role for a crustacean red pigment concentrating hormone-like peptide: Neuromodulation of the pyloric rhythm in the crab, Cancer borealis. J Exp Biol 135:165-181.
Nusbaum MP, Marder E (1989a) A modulatory proctolin-containing neuron (MPN). I. Identification and characterization. J Neurosci 9:1591-1599.
Nusbaum MP, Marder E (1989b) A modulatory proctolin-containing neuron (MPN). II. State-dependent modulation of rhythmic motor activity. J Neurosci 9:1600-1607.
Nusbaum MP, Weimann JM, Golowasch J, Marder E (1992) Presynaptic control of modulatory fibers by their neural network targets. J Neurosci 12:2706-2714.
O'Neil MB, Abbott LF, Sharp AA, Marder E (1995) Dynamic clamp: computer-neural hybrids. In: Handbook of Brain Theory and Neural Networks (Arbib MA, ed), pp 326-329. Cambridge: MIT Press.
Orchard I, Belanger JH, Lange AB (1989) Proctolin: a review with emphasis on insects. J Neurobiol 20:470-496.
Panchin YV, Arshavsky YI, Selverston A, Cleland TA (1993) Lobster stomatogastric neurons in primary culture. I. Basic characteristics. J Neurophysiol 69:1976-1992.
Parker TJ (1976) On the stomach of fresh-water crayfish. J Anat Physiol 11:54-60.
Patwardhan SS (1934) On the structure and mechanism of the gastric mill in Decapoda. I. The structure of the gastric mill in Paratelphusa guerini (M. Edw.). Proc Indian Acad Sci B 1:183-196.
Patwardhan SS (1935a) On the structure and mechanism of the gastric mill in Decapoda. II. A comparative account of the gastric mill in Brachyura. Proc Indian Acad Sci B 1:359-375.
Patwardhan SS (1935b) On the structure and mechanism of the gastric mill in Decapoda. III. Structure of the gastric mill in Anomura. Proc Indian Acad Sci B 1:405-413.
Patwardhan SS (1935c) On the structure and mechanism of the gastric mill in Decapoda. IV. The structure of the gastric mill in Reptantous Macrura. Proc Indian Acad Sci B 1:414-422.
Patwardhan SS (1935d) On the structure and mechanism of the gastric mill in Decapoda. V. The structure of the gastric mill in Natantous Macrura - Carida. Proc Indian Acad Sci B 1:693-704.
Patwardhan SS (1935e) On the structure and mechanism of the gastric mill in Decapoda. VI. The structure of the gastric mill in Natantous Macrura - Panaediea and Stenopidea. Proc Indian Acad Sci B 1:155-174.
Pearson KG, Ramirez J-M (1992) Parallels with other invertabrate and vertebrate motor systems. In: Dynamic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins M, eds), pp 263-282. Cambridge, MA: MIT Press.
Peck JH, Nakanishi ST, Yaple R, Harris-Warrick RM (2001) Amine modulation of the transient potassium current in identified cells of the lobster stomatogastric ganglion. J Neurophysiol 86:2957-2965.
Perkel DH, Mulloney B (1974) Motor pattern production in reciprocally inhibitory neurons exhibiting postinhibitory rebound. Science 185:181-183.
Pfluger HJ (1999) Neuromodulation during motor development and behavior. Curr Opin Neurobiol 9:683-689.
Pinto RD, Elson RC, Szucs A, Rabinovich MI, Selverston AI, Abarbanel HD (2001) Extended dynamic clamp: controlling up to four neurons using a single desktop computer and interface. J Neurosci Methods 108:39-48.
Pinto RD, Varona P, Volkovskii AR, Szucs A, Abarbanel HD, Rabinovich MI (2000) Synchronous behavior of two coupled electronic neurons. Phys Rev E Stat Phys Plasmas Fluids Relat Interdiscip Topics 62:2644-2656.
Powell RR (1974) The functional morphology of the foreguts of the thalassinid crustaceans Callianassa californiensis and Upogebia pugettensis. Univ Cal Publ Zool 102:1-41.
Powers LS (1973) Gastric mill rhythms in intact crabs. Comp Biochem Physiol 46A:767-783.
Prinz AA, Billimoria CP, Marder E (2003) Alternative to hand-tuning conductance-based models: construction and analysis of databases of model neurons. J Neurophysiol 90:3998-4015.
Prinz AA, Bucher D, Marder E (2004) Similar network activity from disparate circuit parameters. Nat Neurosci 7:1345-1352.
Prinz AA, Thirumalai V, Marder E (2003) The functional consequences of changes in the strength and duration of synaptic inputs to oscillatory neurons. J Neurosci 23:943-954.
Pulver SR, Bucher D, Simon DJ, Marder E (2005) Constant amplitude of postsynaptic responses for single presynaptic action potentials but not bursting input during growth of an identified neuromuscular junction in the lobster, Homarus americanus. J Neurobiol 62:47-61.
Pulver SR, Marder E (2002) Neuromodulatory complement of the pericardial organs in the embryonic lobster, Homarus americanus. J Comp Neurol 451:79-90.
Pulver SR, Thirumalai V, Richards KS, Marder E (2003) Dopamine and histamine in the developing stomatogastric system of the lobster Homarus americanus. J Comp Neurol 462:400-414.
Raper JA (1979a) Non-impulse mediated synaptic transmission in the stomatogastric ganglion of the spiny lobster. In. San Diego: University of California.
Raper JA (1979b) Nonimpulse-mediated synaptic transmission during the generation of a cyclic motor program. Science 205:304-306.
Reddy AR (1935) The structure, mechanism and development of the gastric armature in Stomatopoda with a discussion as to its evolution in decapoda. Proc Indian Acad Sci B 1:650-675.
Reglodi D, Lubics A, Szelier M, Lengvari I (1999) Gastrin- and cholecystokinin-like immunoreactivities in the nervous system of the earthworm. Peptides 20:569-577.
Renaud-LeMasson S, LeMasson G, Marder E, Abbott LF (1993) Hybrid circuits of interacting computer model and biological neurons. In: Advances in Neural Information Processing Systems (Hanson SJ, Cowan JD, Giles CL, eds), pp 813-819. San Mateo: Morgan Kaufmann Publishers.
Rezer E (1987) Les activites motrices rhythmiques de l'intestin anterieur des crustaces decapodes. In: La Nutrition des Crustaces et des Insectes (Leger CL, ed), pp 38-57. Paris: CNERNA.
Rezer E, Moulins M (1980) Modalites d'expression du generateur du rythme pylorique chez les crustaces: Analyses electromyographique. C R Acad Sci Paris 291:353-356.
Rezer E, Moulins M (1983) Expression of the crustacean pyloric pattern generator in the intact animal. J Comp Physiol 153:17-28.
Rezer E, Moulins M (1992) Humoral induction of pyloric rhythmic output in lobster stomatogastric ganglion: in vivo and in vitro studies. J Exp Biol 163:209-230.
Richards KS, Marder E (2000) The actions of crustacean cardioactive peptide on adult and developing stomatogastric ganglion motor patterns. J Neurobiol 44:31-44.
Richards KS, Miller WL, Marder E (1999) Maturation of lobster stomatogastric ganglion rhythmic activity. J Neurophysiol 82:2006-2009.
Richards KS, Simon DJ, Pulver SR, Beltz BS, Marder E (2003) Serotonin in the developing stomatogastric system of the lobster, Homarus americanus. J Neurobiol 54:380-392.
Roberts PD (1997) Classification of rhythmic patterns in the stomatogastric ganglion. Neuroscience 81:281-296.
Roberts PD, McCollum G (1996) The stomatogastric nervous system: a formal approach. Neuroscience 72:1089-1105.
Robertson RM, Laverack MS (1979a) Oesophageal sensors and their modulatory influence on oesophageal peristalsis in the lobster, Homarus gammarus. Proc R Soc Lond B Biol Sci 206:235-263.
Robertson RM, Laverack MS (1979b) The structure and function of the labrum in the lobster Homarus gammarus (L.). Proc R Soc Lond B Biol Sci 206:209-233.
Robertson RM, Moulins M (1981a) Control of rhythmic behaviour by a hierarchy of linked oscillators in crustacea. Neurosci Lett 21:111-116.
Robertson RM, Moulins M (1981b) A corollary discharge of total foregut motor activity is monitored by a single interneurone in the lobster Homarus gammarus. J Physiol (Paris) 77:823-827.
Robertson RM, Moulins M (1981c) Firing between two spike thresholds: implications for oscillating lobster interneurons. Science 214:941-943.
Robertson RM, Moulins M (1981d) Oscillatory command input to the motor pattern generators of the crustacean stomatogastric ganglion. I. The pyloric rhythm. J Comp Physiol 143:453-463.
Robertson RM, Moulins M (1984) Oscillatory command input to the motor pattern generators of the crustacean stomatogastric ganglion. II. The gastric rhythm. J Comp Physiol 154:473-491.
Ross WN, Graubard K (1989) Spatially and temporally resolved calcium concentration changes in oscillating neurons of crab stomatogastric ganglion. Proc Natl Acad Sci U S A 86:1679-1683.
Rowat PF, Selverston AI (1991) Learning algorithms for oscillatory networks with gap junctions and membrane currents. Network 2:17-41.
Rowat PF, Selverston AI (1993) Modeling the gastric mill central pattern generator of the lobster with a relaxation-oscillator network. J Neurophysiol 70:1030-1053.
Royer SM (1987) Chronic effects of de-afferentation on the stomatogastric ganglion of Panulirus. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 251-257. Berlin: Springer-Verlag.
Russell DF (1976) Rhythmic excitatory inputs to the lobster stomatogastric ganglion. Brain Res 101:582-588.
Russell DF (1977) Central control of pattern generators in the stomatogastric ganglion of the lobster Panulirus interruptus. In. San Diego: University of California.
Russell DF (1979) CNS control of pattern generation in the lobster stomatogastric ganglion. Brain Res 177:598-602.
Russell DF (1985a) Neural basis of teeth coordination during gastric mill rhythms in spiny lobsters, Panulirus interruptus. J Exp Biol 114:99-119.
Russell DF (1985b) Pattern and reset analysis of the gastric mill rhythm in a spiny lobster, Panulirus interruptus. J Exp Biol 114:71-98.
Russell DF, Graubard K (1987) Cellular and synaptic properties. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 79-100. Berlin: Springer-Verlag.
Russell DF, Hartline DK (1978) Bursting neural networks: a reexamination. Science 200:453-456.
Russell DF, Hartline DK (1981) A multiaction synapse evoking both EPSPs and enhancement of endogenous bursting. Brain Res 223:19-38.
Russell DF, Hartline DK (1982) Slow active potentials and bursting motor patterns in pyloric network of the lobster, Panulirus interruptus. J Neurophysiol 48:914-937.
Russell DF, Hartline DK (1984) Synaptic regulation of cellular properties and burst oscillations of neurons in gastric mill system of spiny lobsters, Panulirus interruptus. J Neurophysiol 52:54-73.
Schaefer N (1970) The functional morphology of the fore-gut of three species of decapod Crustacea: Cyclograpsus punctatus Milne-Edwards, Biogenes brevirostris Stimpson, and Upogebia africana Ortmann. Zool Africana 5:309-326.
Schmitz EH (1986) Cephalothoracic muscles of the foregut and feeding appendages of Armadillidiom vulgare (Latreill) (Crustacea: Isopoda). J Crust Biol 6:134-142.
Scholz NL, Chang ES, Graubard K, Truman JW (1998) The NO/cGMP pathway and the development of neural networks in postembryonic lobsters. J Neurobiol 34:208-226.
Scholz NL, de Vente J, Truman JW, Graubard K (2001) Neural network partitioning by NO and cGMP. J Neurosci 21:1610-1618.
Scholz NL, Goy MF, Truman JW, Graubard K (1996) Nitric oxide and peptide neurohormones activate cGMP synthesis in the crab stomatogastric nervous system. J Neurosci 16:1614-1622.
Selverston A (1999a) General principles of rhythmic motor pattern generation derived from invertebrate CPGs. Prog Brain Res 123:247-257.
Selverston A (1999b) What invertebrate circuits have taught us about the brain. Brain Res Bull 50:439-440.
Selverston A, Elson R, Rabinovich M, Huerta R, Abarbanel H (1998) Basic principles for generating motor output in the stomatogastric ganglion. Ann N Y Acad Sci 860:35-50.
Selverston AI (1973) The use of intracellular dye injections in the study of small neural networks. In: Intracellular Staining in Neurobiology (Kater, Nicholson, eds), pp 255-280. New York: Springer-Verlag.
Selverston AI (1974) Structural and functional basis of motor pattern generation in stomatogastric ganglion of the lobster. Am Zool 74:957-972.
Selverston AI (1976a) A model system for the study of rhythmic behavior. In: Simpler Networks and Behavior (Fentress JC, ed), pp 82-98. Sunderland, MA: Sinauer Associates, Inc.
Selverston AI (1976b) Neuronal mechanisms for rythmic motor pattern generation in a simple system. In: Neural Control of Locomotion (Herman RM, Grillner S, Stein PSG, Stuart DG, eds), pp 377-399. New York: Plenum Press.
Selverston AI (1977a) Mechanisms for the production of rhythmic behavior in crustaceans. In: Identified Neurons and Behavior of Arthropods (Hoyle G, ed), pp 209-225. New York: Plenum Press.
Selverston AI (1977b) Neural circuitry underlying oscillatory motor output. J Physiol 73:463-470.
Selverston AI (1979) Mechanisms for the production and modulation of rhythmic motor patterns. In: The Selection and Modulation of Behavioral Programs, pp 45-47. Cambridge, MA: MIT Press.
Selverston AI (1980) Information processing and synaptic morphology. In: Information Processing in the Nervous System (Pinkser H, Willis W, eds), pp 91-108. New York: Raven Press.
Selverston AI (1984) Neuroethology - how exclusive a club? Behav Brain Sci 7:399-400.
Selverston AI (1986) Gastric mill mechanisms. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 147-171. Berlin: Springer-Verlag.
Selverston AI (1987a) The Crustacean Stomatogastric System: A Model for The Study of Central Nervous Systems AAAAA. Berlin: Springer-Verlag.
Selverston AI (1987b) Motor control, invertebrates. In: Encyclopedia of Neuroscience, pp 695-697. Boston: Birkhauser.
Selverston AI (1988a) A consideration of invertebrate central pattern generators as computational data bases. J Neural Networks 1:109-117.
Selverston AI (1988b) Invertebrate central pattern generators as computational data bases. In: Dynamic Patterns in Complex Systems (Mandell, Schlessinger, Kelson, eds): World Scientific Press.
Selverston AI (1988c) The lobster gastric mill oscillator. In: Neuronal and Cellular Oscillators (Jacklet J, ed), pp 339-370. New York: Marcel Dekker.
Selverston AI (1988d) Switching among functional states by means of neuromodulators in the lobster stomatogastric ganglion. In: Invertebrate Neuroethology (Camhi J, ed), pp 376-382: Experentia.
Selverston AI (1995) Modulation of circuits underlying rhythmic behaviors. J Comp Physiol A 179:139-147.
Selverston AI, Mazzoni P (1989) Flexibility of computational units in invertebrate CPGs. In: The Computing Neuron (Durbin, Miall, Mitchison, eds). Massachusetts: Addison Wesley.
Selverston AI, Miller JP (1980) Mechanisms underlying pattern generation in lobster stomatogastric ganglion as determined by selective inactivation of identified neurons. I. Pyloric system. J Neurophysiol 44:1102-1121.
Selverston AI, Miller JP (1982) Application of a cell inactivation technique to the study of small neural networks. TINS 5:120-123.
Selverston AI, Miller JP, Wadepuhl M (1983a) Cooperative mechanisms for the production of rhythmic movements. Symp Soc Exp Biol 37:55-87.
Selverston AI, Miller JP, Wadepuhl M (1983b) Local circuits for the generation of rhythmic motor patterns. J Physiol (Paris) 78:748-754.
Selverston AI, Miller JP, Wadepuhl M (1983c) Neural mechanisms for the production of cyclic motor patterns. IEEE Transactions, SMC 13:749-757.
Selverston AI, Moulins M (1985) Oscillatory neural networks. Annu Rev Physiol 47:29-48.
Selverston AI, Moulins M (1986) The Crustacean stomatogastric system : a model for the study of central nervous systems AAAAA. Berlin ; New York: Springer-Verlag.
Selverston AI, Mulloney B (1974) Organization of the stomatogastric ganglion of spiny lobster. II. Neurons driving the medial tooth. J Comp Physiol 91:33-51.
Selverston AI, Panchin Y, Archavsky YI, Orlovsky GN (1997) Shared features of invertebrate central pattern generators. In: Neuron, Networks and Motor Behavior (Stein PSG, Grillner S, Selverston AI, Stuart DG, eds), pp 105-117. Cambridge, MA: MIT Press.
Selverston AI, Rabinovich MI, Abarbanel HD, Elson R, Szucs A, Pinto RD, Huerta R, Varona P (2000) Reliable circuits from irregular neurons: a dynamical approach to understanding central pattern generators. J Physiol Paris 94:357-374.
Selverston AI, Russell DF, Miller JP (1976) The stomatogastric nervous system: structure and function of a small neural network. Prog Neurobiol 7:215-290.
Sen K, Jorge-Rivera JC, Marder E, Abbott LF (1996) Decoding synapses. J Neurosci 16:6307-6318.
Sharman A, Hirji R, Birmingham JT, Govind CK (2000) Crab stomach pyloric muscles display not only excitatory but inhibitory and neuromodulatory nerve terminals. J Comp Neurol 425:70-81.
Sharp AA, Abbott LF, Marder E (1992) Artificial electrical synapses in oscillatory networks. J Neurophysiol 67:1691-1694.
Sharp AA, O'Neil MB, Abbott LF, Marder E (1993a) The dynamic clamp: artificial conductances in biological neurons. Trends Neurosci 16:389-394.
Sharp AA, O'Neil MB, Abbott LF, Marder E (1993b) Dynamic clamp: computer-generated conductances in real neurons. J Neurophysiol 69:992-995.
Sharp AA, Skinner FK, Marder E (1996) Mechanisms of oscillation in dynamic clamp constructed two-cell half- center circuits. J Neurophysiol 76:867-883.
Siegel M, Marder E, Abbott LF (1994) Activity-dependent current distributions in model neurons. Proc Natl Acad Sci U S A 91:11308-11312.
Sigvardt KA, Mulloney B (1982a) Properties of synapses made by IVN command-interneurones in the stomatogastric ganglion of the spiny lobster Panulirus interruptus. J Exp Biol 97:153-168.
Sigvardt KA, Mulloney B (1982b) Sensory alteration of motor patterns in the stomatogastric nervous system of the spiny lobster Panulirus interruptus. J Exp Biol 97:137-152.
Si-Liang Y (1977) The diagnostic value of gastric mill's constriction as taxonomic character on the classification of Crabs (Brachyura: Crustacea). In: The Biology of Crabs (Warner GF, ed), pp 151-159. New York: Van Nostrand Reinhold Co.
Simmers AJ (1987) Appendix A: Cellular integration in a gastric proprioceptive pathway. In: The Crustacean Stomatogastric System (Selverston AI, Moulins M, eds), pp 242-251. Berlin: Springer-Verlag.
Simmers AJ, Meyrand P, Moulins M (1995a) Dynamic networks of neurons. Amer Scientist 83:262-268.
Simmers AJ, Moulins M (1990) Membrane properties and integration in a lobster sensori-motor pathway. In: Studies in Neuroscience: Neural and Sensory Mechanisms in Locomotion (Bush BMH, Armstrong D, eds): Manchester University Press.
Simmers J, Meyrand P, Moulins M (1995b) Modulation and dynamic specification of motor rhythm-generating circuits in crustacea. J Physiol Paris 89:195-208.
Simmers J, Moulins M (1988a) A disynaptic sensorimotor pathway in the lobster stomatogastric system. J Neurophysiol 59:740-756.
Simmers J, Moulins M (1988b) Nonlinear interneuronal properties underlie integrative flexibility in a lobster disynaptic sensorimotor pathway. J Neurophysiol 59:757-777.
Skiebe P (1999) Allatostatin-like immunoreactivity in the stomatogastric nervous system and the pericardial organs of the crab Cancer pagurus, the lobster Homarus americanus, and the crayfish Cherax destructor and Procambarus clarkii. J Comp Neurol 403:85-105.
Skiebe P (2001) Neuropeptides are ubiquitous chemical mediators: Using the stomatogastric nervous system as a model system. J Exp Biol 204:2035-2048.
Skiebe P (2003) Neuropeptides in the crayfish stomatogastric nervous system. Microsc Res Tech 60:302-312.
Skiebe P, Dietel C, Schmidt M (1999) Immunocytochemical localization of FLRFamide-, proctolin-, and CCAP- like peptides in the stomatogastric nervous system and neurohemal structures of the crayfish, Cherax destructor. J Comp Neurol 414:511-532.
Skiebe P, Dreger M, Borner J, Meseke M, Weckwerth W (2003) Immunocytochemical and molecular data guide peptide identification by mass spectrometry: orcokinin and orcomyotropin-related peptides in the stomatogastric nervous system of several crustacean species. Cell Mol Biol (Noisy-le-grand) 49:851-871.
Skiebe P, Dreger M, Meseke M, Evers JF, Hucho F (2002) Identification of orcokinins in single neurons in the stomatogastric nervous system of the crayfish, Cherax destructor. J Comp Neurol 444:245-259.
Skiebe P, Ganeshina O (2000) Synaptic neuropil in nerves of the crustacean stomatogastric nervous system: an immunocytochemical and electron microscopical study. J Comp Neurol 420:373-397.
Skiebe P, Schneider H (1994) Allatostatin Peptides in the Crab Stomatogastric Nervous System: Inhibition of the Pyloric Motor Pattern and Distribution of Allatostatin-Like Immunoreactivity. J Exp Biol 194:195-208.
Skiebe P, Wollenschlager T (2002) Putative neurohemal release zones in the stomatogastric nervous system of decapod crustaceans. J Comp Neurol 453:280-291.
Skilleter GA, Anderson DT (1986) Functional morphology of the chelipeds, mouthparts and gastric mill of Ozius trancatus (Milne Edwards) (Xanthidae) and Leptograpsus variegatus (Fabricus) (Grapsidae) (Brachyura). Aust J Mar Freshw Res 37:67-79.
Skinner FK, Kopell N, Marder E (1994) Mechanisms for oscillation and frequency control in reciprocally inhibitory model neural networks. J Comput Neurosci 1:69-87.
Skinner FK, Turrigiano GG, Marder E (1993) Frequency and burst duration in oscillating neurons and two-cell networks. Biol Cybern 69:375-383.
Soto-Trevino C, Thoroughman KA, Marder E, Abbott LF (2001) Activity-dependent modification of inhibitory synapses in models of rhythmic neural networks. Nat Neurosci 4:297-303.
Spirito CP (1975) Organization of the crayfish oesophageal nervous system. J Comp Physiol 102:237-249.
Spruston N, Nusbaum MP (1991) Cyclic nucleotide-mediated modulation of the pyloric motor pattern in the stomatogastric ganglion of the crab Cancer borealis. Biol Bull 181:329-330.
Storch V (1989) Scanning and transmission electron microscopic observations on the stomach of three Mysid species (Crustacea). J Morphol 200:17-27.
Suh H-L, Nemoto T (1988) Morphology of the gastric mill in ten species of euphausids. Mar Biol 97:79-85.
Sullivan RE (1978) Stimulus-coupled 3H-serotonin release from identified neurosecretory fibers in the spiny lobster, Panulirus interruptus. Life Sci 22:1429-1438.
Suthers IM (1984) Functional morphology of the mouthparts and gastric mill in Penaeus plebejus (Decapoda Penaeidae). Aust J Mar Freshw Res 35:785-792.
Suthers IM, Anderson DT (1981) Functional morphology of the mouthparts and gastric mill of Ibacus peronii (Palinura Scyllaridae). Aust J Mar Freshw Res 35:931-944.
Swensen AM, Golowasch J, Christie AE, Coleman MJ, Nusbaum MP, Marder E (2000) GABA and responses to GABA in the stomatogastric ganglion of the crab Cancer borealis. J Exp Biol 203 Pt 14:2075-2092.
Swensen AM, Marder E (2000) Multiple peptides converge to activate the same voltage-dependent current in a central pattern-generating circuit. J Neurosci 20:6752-6759.
Swensen AM, Marder E (2001) Modulators with convergent cellular actions elicit distinct circuit outputs. J Neurosci 21:4050-4058.
Szucs A, Abarbanel HD, Rabinovich MI, Selverston AI (2005) Dopamine modulation of spike dynamics in bursting neurons. Eur J Neurosci 21:763-772.
Szucs A, Pinto RD, Rabinovich MI, Abarbanel HD, Selverston AI (2003) Synaptic modulation of the interspike interval signatures of bursting pyloric neurons. J Neurophysiol 89:1363-1377.
Tanner SL, Storm EE, Bittner GD (1995) Maintenance and degradation of proteins in intact and severed axons: implications for the mechanisms of long-term survival of anucleate crayfish axons. J Neurosci 15:540-548.
Tazaki K (1988) The anatomy and physiology of the stomatogastric nervous system of Squilla. II. The cardiac system. Zool Sci 5:299-309.
Tazaki K (1993) Motor pattern generation of the posterior cardiac plate-pyloric system in the stomatogastric ganglion of the mantis shrimp Squilla oratoria. J Comp Physiol A 172:369-387.
Tazaki K, Chiba C (1991) Mechanisms underlying burst generation of the pyloric muscle in the mantis shrimp, Squilla oratoria. J Comp Physiol [A] 169:737-750.
Tazaki K, Chiba C (1993) Cellular properties and modulation of the stomatogastric ganglion neurons of the stomatopod Squilla oratoria. J Comp Physiol A 173:85-101.
Tazaki K, Chiba C (1994) Glutamate, acetylcholine, and -aminobutyric acid as transmitters in the pyloric system of the stomatogastric ganglion of the stomatopod, Squilla oratoria. J Comp Physiol A 175:487-504.
Tazaki K, Cooke IM (1986) Currents under voltage clamp of burst-forming neurons of the cardiac ganglion of the lobster (Homarus americanus). J Neurophysiol 56:1739-1762.
Tazaki K, Cooke IM (1990) Characterization of Ca current underlying burst formation in lobster cardiac ganglion motorneurons. J Neurophysiol 63:370-384.
Tazaki K, Miyatani M, Ando F (1986) The anatomy and physiology of the stomatogastric nervous system of Squilla. I. The posterior cardiac plate and pyloric systems. J Comp Physiol A 159:521-533.
Tazaki K, Miyazaki T (1991) Neural control of the posterior cardiac plate and pyloric regions of the matis shrimp, Squilla oratoria: neurogenic and myogenic activities of muscles. J Comp Physiol A 168:265-279.
Tazaki K, Tazaki Y (1997) Neural control of the pyloric region in the foregut of the shrimp Penaeus (Decapoda: Penaeidae). J Comp Physiol A 181:367-382.
Tazaki K, Tazaki Y (2000) Multiple motor patterns in the stomatogastric ganglion of the shrimp Penaeus japonicus. J Comp Physiol [A] 186:105-118.
Thirumalai V, Marder E (2002) Colocalized neuropeptides activate a central pattern generator by acting on different circuit targets. J Neurosci 22:1874-1882.
Thoby-Brisson M, Simmers J (1998) Neuromodulatory inputs maintain expression of a lobster motor pattern- generating network in a modulation-dependent state: evidence from long- term decentralization in vitro. J Neurosci 18:2212-2225.
Thoby-Brisson M, Simmers J (2000) Transition to endogenous bursting after long-term decentralization requires De novo transcription in a critical time window. J Neurophysiol 84:596-599.
Thoby-Brisson M, Simmers J (2002) Long-term neuromodulatory regulation of a motor pattern-generating network: maintenance of synaptic efficacy and oscillatory properties. J Neurophysiol 88:2942-2953.
Thompson RS (1982) A model for basic pattern generating mechanisms in the lobster stomatogastric ganglion. Biol Cybern 43:71-78.
Thuma JB, Hooper SL (2002) Quantification of gastric mill network effects on a movement related parameter of pyloric network output in the lobster. J Neurophysiol 87:2372-2384.
Thuma JB, Hooper SL (2003) Quantification of cardiac sac network effects on a movement-related parameter of pyloric network output in the lobster. J Neurophysiol 89:745-753.
Thuma JB, Morris LG, Weaver AL, Hooper SL (2003) Lobster (Panulirus interruptus) pyloric muscles express the motor patterns of three neural networks, only one of which innervates the muscles. J Neurosci 23:8911-8920.
Tierney AJ, Blanck J, Mercier J (1997) FMRFamide-like peptides in the crayfish (Procambarus clarkii) stomatogastric nervous system: distribution and effects on the pyloric motor pattern. J Exp Biol 200:3221-3233.
Tierney AJ, Godleski MS, Rattananont P (1999) Serotonin-like immunoreactivity in the stomatogastric nervous systems of crayfishes from four genera. Cell Tissue Res 295:537-551.
Tierney AJ, Harris-Warrick RM (1992) Physiological role of the transient potassium current in the pyloric circuit of the lobster stomatogastric ganglion. J Neurophysiol 67:599-609.
Tsung F-S, Cottrell GW, Selverston AI (1992) Some experiments on learning stable network oscillations. In: International Joint Conference on Neural Networks. San Diego.
Turrigiano G, Abbott LF, Marder E (1994) Activity-dependent changes in the intrinsic properties of cultured neurons. Science 264:974-977.
Turrigiano G, LeMasson G, Marder E (1995) Selective regulation of current densities underlies spontaneous changes in the activity of cultured neurons. J Neurosci 15:3640-3652.
Turrigiano GG (1999) Homeostatic plasticity in neuronal networks: the more things change, the more they stay the same. Trends Neurosci 22:221-227.
Turrigiano GG, Heinzel HG (1992) Behavioral correlates of stomatogastric network function. In: Dynamic Biological Networks: The Stomatogastric Nervous System (Harris-Warrick RM, Marder E, Selverston AI, Moulins M, eds), pp 197-220. Cambridge, MA: MIT Press.
Turrigiano GG, Marder E (1993) Modulation of identified stomatogastric ganglion neurons in primary cell culture. J Neurophysiol 69:1993-2002.
Turrigiano GG, Marder E, Abbott LF (1996) Cellular short-term memory from a slow potassium conductance. J Neurophysiol 75:963-966.
Turrigiano GG, Selverston AI (1989) Cholecystokinin-like peptide is a modulator of a crustacean central pattern generator. J Neurosci 9:2486-2501.
Turrigiano GG, Selverston AI (1990a) A cholecystokinin-like hormone activates a feeding-related neural circuit in lobster. Nature 344:866-868.
Turrigiano GG, Selverston AI (1990b) Stomatogastric ganglion: Neuromodulatory role of a cholecystokinin-like peptide and a recurrent back propagation model of the gastric system. In: Frontiers in Crustacean Neurobiology (Weise K, Krenz W-D, Tautz J, Reichert H, Mulloney B, eds), pp 407-416. Basel: Birkhauser Verlag.
Turrigiano GG, Selverston AI (1991) Distribution of cholecystokinin-like immunoreactivity within the stomatogastric nervous systems of four species of decapod crustacea. J Comp Neurol 305:164-176.
Turrigiano GG, Van Wormhoudt A, Ogden L, Selverston AI (1994) Partial purification, tissue distribution and modulatory activity of a crustacean cholecystokinin-like peptide. J Exp Biol 187:181-200.
Van Weel PB (1970) Digestion in crustacea. In: Chemical Zoology (Florkin M, Scheer BT, eds), pp 97-115. New York: Academic Press.
Varona P, Torres JJ, Abarbanel HD, Rabinovich MI, Elson RC (2001) Dynamics of two electrically coupled chaotic neurons: experimental observations and model analysis. Biol Cybern 84:91-101.
Varona P, Torres JJ, Huerta R, Abarbanel HD, Rabinovich MI (2001) Regularization mechanisms of spiking-bursting neurons. Neural Netw 14:865-875.
Vedel J-P, Moulins M (1977) Functional properties of interganglionic motor neurons in the stomatogastric nervous system of the rock lobster. J Comp Physiol 118:307-325.
Wales W, Macmillan DL, Laverack MS (1976) Mandibular movements and their control in Homarus gammarus. I. Mandible morphology. J Comp Physiol 106:177-191.
Warshaw HS, Hartline DK (1976) Simulation of network activity in stomatogastric ganglion of the spiny lobster, Panulirus. Brain Res 110:259-272.
Weaver AL, Hooper SL (2003a) Follower neurons in lobster (Panulirus interruptus) pyloric network regulate pacemaker period in complementary ways. J Neurophysiol 89:1327-1338.
Weaver AL, Hooper SL (2003b) Relating Network Synaptic Connectivity and Network Activity in the Lobster (Panulirus interruptus) Pyloric Network. J Neurophysiol.
Weimann JM, Marder E (1994) Switching neurons are integral members of multiple oscillatory networks. Curr Biol 4:896-902.
Weimann JM, Marder E, Evans B, Calabrese RL (1993) The effects of SDRNFLRFamide and TNRNFLRFamide on the motor patterns of the stomatogastric ganglion of the crab Cancer borealis. J Exp Biol 181:1-26.
Weimann JM, Mayrand P, Marder E (1990) Neurons that participate in several behaviors. In: Frontiers in Crustacean Neurobiology (Weise K, Krenz W-D, Tautz J, Reichert H, Mulloney B, eds), pp 424-430. Basel: Birkhauser Verlag.
Weimann JM, Meyrand P, Marder E (1989) Neurons that participate in several behaviors. In: Neural Mechanisms of Behavior (Erber J, Menzel R, Pfluger H, Todt D, eds), p 58. Stuttgart: Georg Thieme Verlag.
Weimann JM, Meyrand P, Marder E (1991) Neurons that form multiple pattern generators: identification and multiple activity patterns of gastric/pyloric neurons in the crab stomatogastric system. J Neurophysiol 65:111-122.
Weimann JM, Skiebe P, Heinzel HG, Soto C, Kopell N, Jorge-Rivera JC, Marder E (1997) Modulation of oscillator interactions in the crab stomatogastric ganglion by crustacean cardioactive peptide. J Neurosci 17:1748-1760.
Wilensky AE, Baldwin DH, Christie AE, Graubard K (2003) Stereotyped neuropil branching of an identified stomatogastric motor neuron. J Comp Neurol 466:554-563.
Williams L (1907) The stomach of the lobster and the food of larval lobsters. Am Report R J Comm Inland Fish 437:153-180.
Withers MD, Kennedy MB, Marder E, Griffith LC (1998) Characterization of calcium/calmodulin-dependent protein kinase II activity in the nervous system of the lobster, Panulirus interruptus. Invert Neurosci 3:335-345.
Wood DE, Manor Y, Nadim F, Nusbaum MP (2004) Intercircuit control via rhythmic regulation of projection neuron activity. J Neurosci 24:7455-7463.
Wood DE, Nusbaum MP (2002) Extracellular peptidase activity tunes motor pattern modulation. J Neurosci 22:4185-4195.
Wood DE, Stein W, Nusbaum MP (2000) Projection neurons with shared cotransmitters elicit different motor patterns from the same neural circuit. J Neurosci 20:8943-8953.
Yang SL (1986) The diagnostic value of the gastric mill structure as toxonomic character on the classification of crabs (Brachyura Crustacea). Acta Zootaxonomica Sin 11:151-159.
Yonge CM (1924) Studies on the comparative physiology of digestion. II. The mecahanism of feeding, digestion, and assimilation in Nephrops norvegicus. Brit J Exp Biol 1:343-389.
Zhang B, Harris-Warrick RM (1994) Multiple receptors mediate the modulatory effects of serotonergic neurons in a small neural network. J Exp Biol 190:55-77.
Zhang B, Harris-Warrick RM (1995) Calcium-dependent plateau potentials in a crab stomatogastric ganglion motor neuron. I. Calcium current and its modulation by serotonin. J Neurophysiol 74:1929-1937.
Zhang B, Wootton JF, Harris-Warrick RM (1995) Calcium-dependent plateau potentials in a crab stomatogastric ganglion motor neuron. II. Calcium-activated slow inward current. J Neurophysiol 74:1938-1946.
Zhang Y, Harris-Warrick RM (2004) An ER export signal accelerates the surface expression of shal potassium channels in pyloric neurons of the lobster stomatogastric ganglion. Pflugers Arch 447:401-404.
Zhang Y, MacLean JN, An WF, Lanning CC, Harris-Warrick RM (2003) KChIP1 and frequenin modify shal-evoked potassium currents in pyloric neurons in the lobster stomatogastric ganglion. J Neurophysiol 89:1902-1909.
Zhang Y, Oliva R, Gisselmann G, Hatt H, Guckenheimer J, Harris-Warrick RM (2003) Overexpression of a hyperpolarization-activated cation current (Ih) channel gene modifies the firing activity of identified motor neurons in a small neural network. J Neurosci 23:9059-9067.
Zilberstein Y, Ayali A (2002) The role of the frontal ganglion in locust feeding and moulting related behaviours. J Exp Biol 205:2833-2841.
Zilberstein Y, Fuchs E, Hershtik L, Ayali A (2004) Neuromodulation for behavior in the locust frontal ganglion. J Comp Physiol A Neuroethol Sens Neural Behav Physiol 190:301-309.
Zirpel L, Baldwin D, Graubard K (1993) Nickel induces oscillatory behavior and enhanced synaptic and electrotonic transmission between stomatogastric neurons of Panulirus interruptus. Brain Res 617:205-213.

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