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1) S Clemens, R Calin-Jageman, and PS. Katz (2007 )
Altering cAMP levels within a central pattern generator modifies or disrupts
rhythmic motor output. J. Comp. Physiol.
193(12):1265-71. PMID: 17972082
2) A. Sakurai,
R.J. Calin-Jageman, and P.S. Katz (2007) The potentiation phase of spike timing-dependent
neuromodulation by a serotonergic interneuron involves an increase in the
fraction of transmitter release. Journal of Neurophysiology. 98(4):1975-87 PMID: 17686912
3) R. Calin-Jageman, M. Tunstall, B. Mensh,P.S. Katz, W. N. Frost
(2007) Parameter space analysis suggests multi-site plasticity contributes to
motor pattern initiation in Tritonia. Journal of Neurophysiology 98(4):2382-98.
PMID: 17652417
4) E.S. Hill and
P.S. Katz (2007) The role of membrane potential in
calcium signaling during rhythmic bursting in Tritonia swim interneurons.
Journal of Neurophysiology, 97(3): 2204-2214 PMID: 17229821
5) R.J. Calin-Jageman, A. Dhawan, H.
Yang, H.-C. Wang, H. Tian, P. Phoungphol,
C. Frederick, J. Balasooriya, Y. Chen, S.K. Prasad,
R. Sunderraman, Y. Zhu, and P.S. Katz (2007)
Development of NeuronBank: A Federation of Customizable Knowledge Bases of
Neuronal Circuitry, Proceedings of the Ist IEEE International Workshop on Service Oriented
Technologies for Biological Databases and Tools - IEEE Services Computing
Workshops (SOBDAT/SCW 2007). July 13,
6) Sakurai A
(2007) Spike timing-dependent neuromodulation in the Tritonia swim central
pattern generator. Comparative Physiology and Biochemistry 24 (1): 18-26. [in
Japanese]
7) R.J. Calin-Jageman, C. Xie, Y. Pan, A. Vandenberg & P.S. Katz (2007) NEURONgrid:
A toolkit for generating parameter-space maps using NEURON in a grid
environment. In LNCS Lecture Notes in Bioinformatics, v. 4463. I. Mandoiu and A. Zelikovsky (Eds.),
pp. 182–191.
8) J.M. Newcomb
and P.S. Katz (2007) Homologues of serotonergic central pattern generator
neurons in related nudibranch molluscs with divergent behaviors, J.Comp.Physiol.A. 193(4): 425-443. PMID: 17180703
9) P.S. Katz
(2006) Evolution and Development of Neural Circuits in Invertebrates. Current
Opinion in Neurobiology. 17(1): 59-64. PMID: 17174546
10) W.B.Kristan and P. Katz
(2006) Form and function in systems neuroscience. Current Biology. 16(19):
R828-R831 doi: 10.1016/j.cub.2006.08.079
11) J.M. Newcomb , D.J. Fickbohm, and P.S.
Katz (2006) Comparative mapping of serotonin-immunoreactive
neurons in the central nervous systems of nudibranch molluscs. J. Comparative Neurology. 499(3): 485-505. PMID: 16998939
12) R.J. Calin-Jageman and P.S. Katz (2006) A
distributed computing tool for generating neural simulation databases. Neural
Computation. 18(12):2923-7.
PMID: 17052151
13) P.S. Katz
(2006) Comparative Neurophysiology: An Electric Convergence in Fish [Dispatch].
Current Biology 16(9): R327-R330. http://dx.doi.org/10.1016/j.cub.2006.03.074
14) P.S. Katz
(2006) Personal Report: Q&A, Current Biology 16(6): R190-191. http://dx.doi.org/10.1016/j.cub.2006.02.033
15) A. Sakurai,
N.R. Darghouth, R.J. Butera,
and P.S. Katz (2006) Serotonergic enhancement of a 4-AP-sensitive current
mediates the synaptic depression phase of spike-timing dependent
neuromodulation. J. Neuroscience. 26: 2010 – 2021.
http://www.jneurosci.org/cgi/content/abstract/26/7/2010
16) H. Tian, R. Sunderraman, R. Calin-Jageman, H. Yang, Y. Zhu, and P.S. Katz (2006)
NeuroQL: A
Domain-Specific Query Language for Neuroscience Data, Current Trends in
Database Technology – EDBT 2006, Series: Lecture Notes in Computer Science. v.
4254: pp 613-634.
17) D.J. Fickbohm, N. Spitzer, P.S. Katz (2005) Pharmacological
manipulation of serotonin levels in the nervous system of the opisthobranch
mollusc Tritonia diomedea. Biological
Bulletin 209:
67-74.
http://www.biolbull.org/cgi/content/abstract/209/1/67
18) J. A. Pamplin, Y. Zhu, P.S. Katz, R. Sunderraman
(2005) A 3D User Interface for Visualizing Neuron Location in Invertebrate
Ganglia, Proceedings of the 4th International Workshop on Computer Graphics and
Geometric Modeling, Lecture Notes in Computer Science, 3515: 347 – 350. (download pdf)
19) P.S. Katz, A.
Sakurai, S. Clemens, D. Davis
(2004) The Cycle Period of a Network Oscillator is Independent of
Membrane Potential and Spiking Activity in Individual Central Pattern Generator
Neurons. J Neurophysiol. .92: 1904-1917.
http://jn.physiology.org/cgi/content/full/92/3/1904.
20) C.P. Lynn-Bullock,
K. Welshhans, S.L. Pallas, P.S. Katz (2004) The effect of
oral 5-HTP administration on 5-HTP and 5-HT immunoreactivity in monaminergic brain regions of rats. J.Chemical
Neuroanatomy. 27(2):129-138. http://dx.doi.org/10.1016/j.jchemneu.2004.02.003
21) Sakuari, A. and P.S.
Katz (2003) Spike Timing-Dependent Serotonergic Neuromodulation of Synaptic
Strength Intrinsic to a Central Pattern Generator Circuit. J. Neuroscience. 23:
10745-10755. http://www.jneurosci.org/cgi/content/full/23/34/10745
22) P.S. Katz
(2003) Synaptic gating: The potential to open closed doors. [Dispatch] Current
Biology 13: R554 - R556.
23) S. Clemens and
P.S. Katz (2003) G protein signaling in a neuronal network is necessary for
rhythmic motor pattern production.
Journal of Neurophysiology 89: 762-772 http://jn.physiology.org/cgi/content/abstract/89/2/762
24) P.S. Katz,
D.J. Fickbohm, and C.P. Lynn-Bullock (2001) Evidence
that the swim CPG of Tritonia arose from a non-rhythmic neuromodulatory arousal
system: Implications for the evolution
of specialized behavior. American Zoologist. 41: 962-975. http://icb.oxfordjournals.org/cgi/content/abstract/41/4/962?ct
25) D.J. Fickbohm, C.P. Lynn-Bullock, N. Spitzer, H.K. Caldwell, and
P.S. Katz (2001) Localization and
quantification of 5-hydroxytryptophan and serotonin in the central nervous
systems of Tritonia and Aplysia. Journal of Comparative Neurology. 437:91-105. http://www3.interscience.wiley.com/cgi-bin/abstract/85006271
26) P.S. Katz and
S. Clemens (2001) Biochemical networks in nervous systems: Expanding neuronal
information processing beyond voltage signals. Trends in Neurosciences. 24(1):
18-25. http://dx.doi.org/10.1016/S0166-2236(00)01686-6
27) S. Clemens and
P.S. Katz (2001) Identified Serotonergic Neurons in the Tritonia Swim CPG
Activate Both Ionotropic and Metabotropic
Receptors J.Neurophysiol. 85: 476-479. http://jn.physiology.org/cgi/content/abstract/85/1/476
28) D.J. Fickbohm and P.S. Katz (2000) Paradoxical actions of the
serotonin precursor, 5‑hydroxytryptophan, on the activity of identified
serotonergic neurons in a simple motor circuit . J. Neuroscience, 20(4): 1622-1634. http://www.jneurosci.org/cgi/content/abstract/20/4/1622
29) P.S. Katz and
R.M. Harris-Warrick (1999) The evolution of neuronal
circuits underlying species-specific behavior.
Current Opinion in Neurobiology, 9: 628-633. http://www.biomednet.com/library/abstract/JNRB.nb9508
30) P.S. Katz
(1998) Comparison of extrinsic and intrinsic neuromodulation in two central
pattern generator circuits in invertebrates. Experimental Physiology,
83:281-292.
31) P.S. Katz
(1998) Neuromodulation Intrinsic to the Central Pattern Generator for Escape
Swimming in Tritonia.
32) P.S. Katz
(1997) Extrinsic and Intrinsic Neuromodulation of Motor Systems: Physiological
Mechanisms for Behavioral Flexibility. Journal of Physiology (
33) P.S. Katz and
W.N. Frost (1997) Removal of spike frequency adaptation via neuromodulation
intrinsic to the Tritonia escape swim central pattern generator. Journal of
Neuroscience 17(20): 7703-7713. http://www.jneurosci.org/cgi/content/abstract/17/20/7703
34) W.N. Frost and
P.S. Katz (1996) Single neuron control over a complex motor program Proc. Natl. Acad. Sci.
USA 93: 422-426. http://www.pnas.org/cgi/content/abstract/93/1/422
35) P.S. Katz and
W.N. Frost (1996) Intrinsic neuromodulation:
Altering neuronal circuits from within.
Trends in Neurosciences 19:
54-61.
36) P.S. Katz
(1995) Intrinsic and extrinsic
neuromodulation of motor circuits.
Current Opinion in Neurobiology 5:
799-808.
37) P.S. Katz and
W.N. Frost (1995) Intrinsic neuromodulation in the Tritonia swim CPG: Serotonin mediates both neuromodulation and
neurotransmission by the dorsal swim interneurons, J.Neurophysiology
74: 2281-2294. http://jn.physiology.org/cgi/content/abstract/74/6/2281
38) P.S. Katz and
W.N. Frost (1995) Intrinsic neuromodulation in the Tritonia swim CPG: The serotonergic dorsal swim interneurons act
presynaptically to enhance transmitter release from
interneuron C2. J. Neuroscience 15:
6035-6045. http://www.jneurosci.org/cgi/content/abstract/15/9/6035
39) P.S. Katz,
P.A. Getting, and W.N. Frost (1994) Dynamic neuromodulation of synaptic
strength intrinsic to a central pattern generator circuit. Nature 367: 729-731.
40) P.S. Katz,
M.D. Kirk and C.K. Govind (1993) Facilitation and depression at different
branches of the same motor axon: Evidence for presynaptic differences in
release. Journal of Neuroscience 13: 3075-3089. http://www.jneurosci.org/cgi/content/abstract/13/7/3075
41) P.S. Katz and
I.B. Levitan (1993) Quisqualate
and ACPD are Agonists for a glutamate-activated current in identified Aplysia
neurons. J. Neurophysiology 69: 143-150.
http://jn.physiology.org/cgi/content/abstract/69/1/143
42) P.S. Katz and
R.M. Harris-Warrick (1991) Recruitment
of crab gastric mill neurons into the pyloric motor pattern by mechanosensory afferent stimulation. J. Neurophysiology, 65: 1442-1451. http://jn.physiology.org/cgi/content/abstract/65/6/1442
43) P.S. Katz
(1991) Neuromodulation and the evolution of a simple motor system, Seminars in
the Neurosciences, 3: 379-389.
44) P.S. Katz and
R.M. Harris-Warrick (1990) Neuromodulation of the crab pyloric central pattern
generator by serotonergic / cholinergic proprioceptive
afferents. J. Neuroscience. 10: 1495-1512. http://www.jneurosci.org/cgi/content/abstract/10/5/1495
45) P.S. Katz and
R.M. Harris-Warrick (1990) Actions of
identified neuromodulatory neurons in a simple motor system. Trends in Neurosciences, 13: 367-373.
46) R.M.
Harris-Warrick, R.E. Flamm, B.R. Johnson, and P.S.
Katz (1989) Modulation of neural circuits in crustacea. Amer. Zool. 29:
1305‑1320.
47) P.S. Katz,
M.H. Eigg, and R.M. Harris-Warrick (1989)
Serotonergic / cholinergic muscle receptor cells in the crab stomatogastric
nervous system: I. Identification and
characterization of the gastro-pyloric receptor cells. J. Neurophysiology 62:
558‑570. http://jn.physiology.org/cgi/content/abstract/62/2/558
48) P.S. Katz and
R.M. Harris-Warrick (1989) 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.
Neurophysiology 62: 571‑581. http://jn.physiology.org/cgi/content/abstract/62/2/571
_____________________________________________________
P.S. Katz, ed.
(1999) Beyond Neurotransmission: Neuromodulation and its importance for
Information Processing, Oxford University Press,
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1) P.S. Katz
(2007) Unanswered questions, Chapter 37-
Information Flow and the Neuron Biology: in The Dynamic Science, Authors:
Russell, Wolfe, Hertz & Starr, Publisher: Thomson Higher Education:
Brooks/Cole.
2) P.S. Katz and
S.L. Hooper (2007) Invertebrate Central Pattern Generators. In “Invertebrate Neuroscience” G.North and R. Greenspan (eds),
3) P.S. Katz and
R. Calin-Jageman (2007) Neuromodulation. In “New Encyclopedia of Neuroscience” Elsevier, in press.
4) P.S. Katz and
J.M. Newcomb (2006) A Tale of Two CPGs: Phylogenetically
polymorphic networks. In “Evolution of
Nervous systems”, Volume 1. JH Kaas (ed), Elsevier,
5) P.S. Katz
(1999) What are we talking about? Modes
of Neuronal Communication, In Beyond Neurotransmission: Neuromodulation and its importance for
information processing, P.S. Katz (ed.), Oxford Univ. Press,
6) P.S. Katz and
D.H. Edwards (1999) Metamodulation: The control and
modulation of neuromodulation, In Beyond Neurotransmission: Neuromodulation and
its importance for information processing,
P.S. Katz (ed.), Oxford Univ. Press,
New York, pp 339-381.
7) O. Kiehn and P.S. Katz (1999) Making circuits dance:
Neuromodulation of motor systems, In Beyond Neurotransmission: Neuromodulation
and its importance for information flow,
P.S. Katz (ed.), Oxford Univ. Press,
8) W.N. Frost,
J.R. Lieb, Jr., M.J. Tunstall,
B.D. Mensh, and P.S. Katz (1997) Integrate-and-Fire
Simulations of Two Molluscan Neural Circuits, In:
Neurons, Networks, and Motor Behavior. P.S.G. Stein, A.I. Selverston,
D.G. Stuart, and S. Grillner, eds. MIT Press,
Cambridge, MA, pp. 173-179.
9) P.S. Katz
(1995) Neuromodulation and motor pattern generation in the crustacean
stomatogastric nervous system, In: Neural Control of Movement. W.R. Ferrell,
and U. Proske, eds. Plenum Press, NY, pp 277-283.
10) P.S. Katz and
K. Tazaki (1992) Comparative and evolutionary aspects
of the stomatogastric system, In:
Dynamic Biological Networks: The Stomatogastric Nervous System. R.M.
Harris-Warrick, E. Marder, A.I. Selverston,
and M. Moulins eds., MIT Press, Cambridge, pp.
221-261.
11) R.M.
Harris-Warrick, R.E. Flamm, B.R. Johnson, P.S. Katz,
O. Kiehn, B. Zhang (1992) Neuromodulation of small
neural networks in Crustacea. Neurotoxicology
1991: Molecular Basis of Drug and Pesticide Action, I.R.Duce,
ed. Elsevier Applied Science, Essex, England, pp. 323-338.
12)
R.M. Harris-Warrick and P.S. Katz (1990) Sensory modulation
of motor pattern generators in the crab stomatogastric ganglion. In: Frontiers in Crustacean Neurobiology K. Wiese, et al. (ed). Birkenhauser Verlag,
Basel, pp. 431-438.
_____________________________________________________
Online Publications:
1) P.S. Katz
(2007) Gastropod Neuroscience, Scholarpedia.org (http://www.scholarpedia.org/article/Gastropod_Neuroscience)
2) P.S. Katz
(2007) Tritonia, Scholarpedia.org, p.16478 (http://www.scholarpedia.org/article/Tritonia)
_____________________________________________________
P.S. Katz (1993)
Review of "Neurobiology of Motor Programme
Selection: New Approaches to the Study
of Behavioural Choice" Trends in Neurosciences 16: 249-250.
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Meeting Reviews:
P.S. Katz
(1996) Neurons, Networks, and Motor Behavior. Neuron 16: 245-253.
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1) Lillvis JL, Kohn AB,
Yu, F, Shaw, R, Farmerie, W, Moroz
LL, Katz PS (2007) Neuropeptide gene expression
patterns in the gastropod mollusc, Tritonia diomedea. Society for Neuroscience.
Program No. 140.8. Society for Neuroscience,
2) A. Sakurai,
P.S. Katz (2007) Adaptive plasticity underlies functional recovery following
lesion of a central pattern generator. Society for Neuroscience. Program No.
188.12 Society for Neuroscience,
3) A.C. Ajlen, P.S. Katz, K.J. Frantz, R. Calin-Jageman
(2007) Amphetamine enhances locomotor activity after
repeated exposure in the marine mollusc Aplysia californica. Society for
Neuroscience. Program No. 429.10. Society for Neuroscience.
4) R. Calin-Jageman, W.N. Frost, P.S. Katz (2006) Neuromodulatory
control of rhythmic neural activity in the Tritonia swim CPG: a large-scale
computational analysis. Program # 350.1. Society for Neuroscience. 2006
Neuroscience Meeting Planner.
5) P.S. Katz, J.M. Newcomb
(2006) Phylogenetic reconfiguration of neural
circuits underlying locomotion in nudibranch molluscs. Program # 350.2. Society
for Neuroscience. 2006 Neuroscience Meeting Planner.
6) J.M. Newcomb,
M. M. Naugle, D. J. Fickbohm,
P. S. Katz (2006) Comparative mapping of serotonin-immunoreactive
neurons in the central nervous systems of nudibranch molluscs. Program #
129.18.
Society for Neuroscience. 2006 Neuroscience Meeting Planner.
7) E.S. Hill,
P.S. Katz (2006) Heterosynaptic enhancement of spike-evoked Ca++ signals by a
serotonergic interneuron. Program # 350.3. Society for Neuroscience. 2006
Neuroscience Meeting Planner.
8) A.Sakurai, P.S. Katz
(2006) Activity-dependent heterosynaptic augmentation of synaptic transmission
caused by a serotonergic interneuron in the Tritonia swim CPG. Program #
350.4.
Society for Neuroscience. 2006 Neuroscience Meeting Planner.
9) J.M. Newcomb
and P.S. Katz (2005) Evolution of central pattern generator circuitry in
nudibranch molluscs: changes in the functions of identified neurons embedded in
a common network. Program No.
752.2. 2005 Abstract Viewer/Itinerary
Planner.
10) A. Sakurai;
R.J. Calin-Jageman; P.S. Katz (2005) Serotonergic
enhancement of transmitter release mediates the synaptic potentiation phase of
spike timing-dependent neuromodulation. Program No. 177.13 Abstract
Viewer/Itinerary Planner.
11) E.S. Hill and
P.S. Katz (2005) Membrane potential accounts for the Ca++ signal during
rhythmic bursting in a swim CPG neuron in the mollusc Tritonia diomedea.
Program No. 54.3 Abstract Viewer/Itinerary Planner.
12) P.S. Katz,
R.J. Calin-Jageman, C. Gardner, J.A. Pamplin, R. Sunderraman, H. Tian, H. Yang, Y. Zhu (2005) Development of NeuronBank: An
on-line database of identified neurons and synaptic connections. Program No.
570.6 Abstract Viewer/Itinerary Planner.
13) A. Sakurai and
P.S. Katz (2004) Serotonergic enhancement of a 4-AP sensitive current causes spike
propagation failure in a Tritonia swim CPG neuron with multiple spike
initiation zones. Program No. 537.1. 2004 Abstract Viewer/Itinerary Planner.
14) N.R. Darghouth; A. Sakurai; R.J. Butera;
P.S. Katz (2004) Computer simulations and dynamic clamp experiments support a
role for a 4-AP-sensitive current in serotonin-induced spike narrowing leading
to synaptic depression Soc. Neurosci Abstr 30 (in press).
15) J.M. Newcomb
and P.S. Katz (2003) Homologous serotonergic neurons in two molluscan
species differentially participate in analogous locomotor
behaviors. Soc. Neurosci. Abstr.
29, #403.7.
16) A. Sakurai and
P.S. Katz (2003) 4-AP and IBMX selectively block the depression phase of a
biphasic neuromodulation of synaptic strength by serotonergic neurons in the
Tritonia swim CPG. Soc. Neurosci Abstr.
29, #168.18.
17) J.M. Newcomb
and P.S. Katz (2003) Homologous serotonergic neurons in two molluscan
species differentially participate in analogous locomotor
behaviors. Soc. Neurosci. Abstr.
29, #403.7.
18) P.S. Katz, A.
Sakurai, S. Clemens, D. Davis (2002) Cycle period regulation in the Tritonia
escape swim. Soc. Neurosci. Abstr.28, 67.5.
19) C.P.
Lynn-Bullock, S. Clemens, A. Sakurai, and P.S. Katz (2002) Functional anatomy
of the escape swim CPG in Tritonia. Soc. Neurosci.
Abstr.28, 67.25.
20) L.B. Popova and P.S. Katz
(2002) The effects of 5-HT on acutely isolated serotonergic Tritonia swim CPG
neurons. Soc. Neurosci. Abstr.28, 270.12.
21) A. Sakurai and
P.S. Katz (2002) Serotonergic interneurons in Tritonia evoke a biphasic
neuromodulatory action. Soc. Neurosci. Abstr.28,
270.13.
22) P.S. Katz
(2001) Short-term synaptic plasticity suggests that 5-HT synthesis and reuptake
affect separate transmitter pools at a serotonergic synapse in Tritonia. Soc. Neurosci. Abstr.27: 13.10.
23) S. Clemens and
P.S. Katz (2001) Photolysis of intracellularly
injected caged cyclic AMP rapidly affects the Tritonia swim CPG. Soc. Neurosci. Abstr.27: 306.29.
24) C.P.Lynn-Bullock, K.Welshhans, A.Reedy, S.F.Belinga, S.L.Pallas, P.S.Katz (2001) 5-HTP - and 5-HT- immunoreactivity in the raphe nucleus, substantia nigra, and locus coeruleus after
oral 5-HTP administration. Soc. Neurosci. Abstr.27:
806.15.
25) D.R.McPherson and P.S.Katz (2001) Identification of serotonergic cerebral
neurons that project to the pedal ganglia in Aplysia californica. Soc. Neurosci.
Abstr.27: 943.10.
26) S. Clemens and
P.S. Katz (2000) Cyclic AMP mediates some actions of serotonergic neurons
within the Tritonia swim CPG through a PKA-independent mechanism. Soc. Neurosci. Abstr. 26: 163.13.
27) D.J. Fickbohm, N. Spitzer, & P.S. Katz (2000) Serotonin
homeostasis in the brain of Tritonia diomedea.
Soc. Neurosci. Abstr.
26: 343.5.
28) S. Clemens and
P.S. Katz (2000) Metabotropic serotonergic receptors
in a central pattern generator control rhythmic motor pattern production and
mediate some intrinsic neuromodulatory actions via cyclic AMP. Federation of European Neuroscience
Societies, p. 153.
29) D.J. Fickbohm, C.P. Lynn, H.K. Caldwell, and P.S. Katz (1999)
The distribution of serotonin and its precursor, 5-HTP, in two molluscan species.
American Zoologist, 39 (5): 20A.
30) P.S. Katz,
D.J. Fickbohm, and S. Clemens (1999) Control of
serotonergic actions within the Tritonia swim circuit. American Zoologist, 39
(5): 109A.
31)
S. Clemens and P.S.
Katz (1999) "Un noveau role pour l'AMPc en tant que médiateur de la
modulation intrinsèque dans un réseau neuronal chez le nudibranch Tritonia
diomedea" Actes du 4ème Colloque de la Société des
Neurosciences, Marseille, p. G-33.
32) S. Clemens and
P.S. Katz (1999) G protein-coupled receptors are required for the generation of
the swim motor pattern in Tritonia and may mediate modulatory actions of
serotonergic CPG neurons. Soc. Neurosci. Abstr. 25: 1646.
33) D.J. Fickbohm & P.S. Katz (1999) Manipulation of 5-HT
content alters the modulatory actions of serotonergic neurons in the Tritonia
swim CPG. Soc. Neurosci. Abstr.
25:168.
34) H.N. Kingsley,
C.P. Lynn, D.J. Fickbohm and P.S. Katz (1999) Immunohistochemical localization of the serotonin precursor
5-HTP shows some dissociation from 5-HT immunostaining
in two molluscs. Soc. Neurosci. Abstr.
25:168.
35) D.J. Fickbohm and P.S. Katz (1998) Serotonin precursor treatment
and behavioral training alter swim motor pattern production in Tritonia. Soc. Neurosci. Abstr. 24: 358.
36) D.J. Fickbohm and P.S. Katz (1998) Long-term Plasticity of
Serotonin Synapses in the Tritonia Escape Swim CPG in Response to Repeated
Behavioral Activation or 5-Hydroxytryptophan Exposure. International Society
for Neuroethology.
37) L.B. Popova and P.S. Katz (1988) Serotonin responses of acutely
isolated identified neurons from the Tritonia swim CPG. Soc. Neurosci.
Abstr. 24: 358.
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