Citation Relationships

Legends: Link to a Model Reference cited by multiple papers

Blackwell KT (2006) Ionic currents underlying difference in light response between type A and type B photoreceptors. J Neurophysiol 95:3060-72 [PubMed]

   Differences between type A and B photoreceptors (Blackwell 2006)

References and models cited by this paper

References and models that cite this paper

Acosta-Urquidi J, Crow T (1995) Characterization of voltage-activated currents in Hermissenda type B-photoreceptors. J Neurosci 15:319-32 [PubMed]
Alkon DL, Fuortes MGF (1972) Response of photoreceptors in Hermissenda J Gen Physiol 60:631-649
Alkon DL, Lederhendler I, Shoukimas JJ (1982) Primary changes of membrane currents during retention of associative learning. Science 215:693-5 [PubMed]
Alkon DL, Sakakibara M, Forman R, Harrigan J, Lederhendler I, Farley J (1985) Reduction of two voltage-dependent K+ currents mediates retention of a learned association. Behav Neural Biol 44:278-300 [PubMed]
Blackwell KT (2002) The effect of intensity and duration on the light-induced sodium and potassium currents in the Hermissenda type B photoreceptor. J Neurosci 22:4217-28 [Journal] [PubMed]
Blackwell KT (2002) Calcium waves and closure of potassium channels in response to GABA stimulation in Hermissenda type B photoreceptors. J Neurophysiol 87:776-92 [Journal] [PubMed]
Blackwell KT (2004) Paired turbulence and light do not produce a supralinear calcium increase in Hermissenda. J Comput Neurosci 17:81-99 [Journal] [PubMed]
   Paired turbulence and light effect on calcium increase in Hermissenda (Blackwell 2004) [Model]
Bower JM, Beeman D (1998) The Book Of Genesis: Exploring Realistic Neural Models With The General Neural Simulation System
Cai Y, Baxter DA, Crow T (2003) Computational study of enhanced excitability in Hermissenda: membrane conductances modulated by 5-HT. J Comput Neurosci 15:105-21 [PubMed]
   Enhanced Excitability in Hermissenda: modulation by 5-HT (Cai et al 2003) [Model]
Chen Z, Ermentrout B, Wang XJ (1998) Wave propagation mediated by GABAB synapse and rebound excitation in an inhibitory network: a reduced model approach. J Comput Neurosci 5:53-69 [PubMed]
Crow T (1985) Conditioned modification of phototactic behavior in Hermissenda. II. Differential adaptation of B-photoreceptors. J Neurosci 5:215-23 [PubMed]
Crow T, Tian LM (2000) Monosynaptic connections between identified A and B photoreceptors and interneurons in Hermissenda: evidence for labeled-lines. J Neurophysiol 84:367-75 [Journal]
Crow T, Tian LM (2002) Morphological characteristics and central projections of two types of interneurons in the visual pathway of Hermissenda. J Neurophysiol 87:322-32 [Journal] [PubMed]
Crow T, Tian LM (2002) Facilitation of monosynaptic and complex PSPs in type I interneurons of conditioned Hermissenda. J Neurosci 22:7818-24 [PubMed]
Crow T, Tian LM (2003) Interneuronal projections to identified cilia-activating pedal neurons in Hermissenda. J Neurophysiol 89:2420-9 [Journal] [PubMed]
Crow T, Tian LM (2004) Neural correlates of Pavlovian conditioning in components of the neural network supporting ciliary locomotion in Hermissenda. Learn Mem 10:209-16
Crow TJ, Alkon DL (1980) Associative behavioral modification in hermissenda: cellular correlates. Science 209:412-4 [Journal] [PubMed]
Ermentrout B (2003) Dynamical consequences of fast-rising, slow-decaying synapses in neuronal networks. Neural Comput 15:2483-522 [Journal] [PubMed]
Farley J, Alkon DL (1982) Associative neural and behavioral change in Hermissenda: consequences of nervous system orientation for light and pairing specificity. J Neurophysiol 48:785-807 [Journal] [PubMed]
Farley J, Han Y (1997) Ionic basis of learning-correlated excitability changes in Hermissenda type A photoreceptors. J Neurophysiol 77:1861-88 [Journal] [PubMed]
Farley J, Richards WG, Grover LM (1990) Associative learning changes intrinsic to Hermissenda type A photoreceptors. Behav Neurosci 104:135-52 [PubMed]
Flynn M, Cai Y, Baxter DA, Crow T (2003) A computational study of the role of spike broadening in synaptic facilitation of Hermissenda. J Comput Neurosci 15:29-41 [PubMed]
Fost JW, Clark GA (1996) Modeling Hermissenda: I. Differential contributions of IA and IC to type-B cell plasticity. J Comput Neurosci 3:137-53 [PubMed]
Fost JW, Clark GA (1996) Modeling Hermissenda: II. Effects of variations in type-B cell excitability, synaptic strength, and network architecture. J Comput Neurosci 3:155-72 [PubMed]
Frysztak RJ, Crow T (1993) Differential expression of correlates of classical conditioning in identified medial and lateral type A photoreceptors of Hermissenda. J Neurosci 13:2889-97 [PubMed]
Frysztak RJ, Crow T (1994) Enhancement of type B and A photoreceptor inhibitory synaptic connections in conditioned Hermissenda. J Neurosci 14:1245-50 [PubMed]
Frysztak RJ, Crow T (1997) Synaptic enhancement and enhanced excitability in presynaptic and postsynaptic neurons in the conditioned stimulus pathway of Hermissenda. J Neurosci 17:4426-33 [PubMed]
Gilly WF, Gillette R, McFarlane M (1997) Fast and slow activation kinetics of voltage-gated sodium channels in molluscan neurons. J Neurophysiol 77:2373-84 [Journal] [PubMed]
Goh Y, Alkon DL (1984) Sensory, interneuronal, and motor interactions within Hermissenda visual pathway. J Neurophysiol 52:156-69 [Journal] [PubMed]
Ito E, Oka K, Collin C, Schreurs BG, Sakakibara M, Alkon DL (1994) Intracellular calcium signals are enhanced for days after Pavlovian conditioning. J Neurochem 62:1337-44 [PubMed]
Lederhendler II, Alkon DL (1989) The interstimulus interval and classical conditioning in the marine snail Hermissenda crassicornis. Behav Brain Res 35:75-80 [PubMed]
Lewis DV, Huguenard JR, Anderson WW, Wilson WA (1986) Membrane currents underlying bursting pacemaker activity and spike frequency adaptation in invertebrates. Adv Neurol 44:235-61 [PubMed]
Matzel LD, Schreurs BG, Lederhendler I, Alkon DL (1990) Acquisition of conditioned associations in Hermissenda: additive effects of contiguity and the forward interstimulus interval. Behav Neurosci 104:597-606 [PubMed]
Miller JL, Picones A, Korenbrot JI (1994) Differences in transduction between rod and cone photoreceptors: an exploration of the role of calcium homeostasis. Curr Opin Neurobiol 4:488-95 [PubMed]
Mo JL, Blackwell KT (2003) Comparison of Hermissenda type a and type B photoreceptors: response to light as a function of intensity and duration. J Neurosci 23:8020-8 [PubMed]
Moss BL, Silberberg SD, Nimigean CM, Magleby KL (1999) Ca2+-dependent gating mechanisms for dSlo, a large-conductance Ca2+-activated K+ (BK) channel. Biophys J 76:3099-117 [Journal] [PubMed]
Muzzio IA, Talk AC, Matzel LD (1998) Intracellular Ca2+ and adaptation of voltage responses to light in Hermissenda photoreceptors. Neuroreport 9:1625-31 [PubMed]
Nimigean CM, Magleby KL (2000) Functional coupling of the beta(1) subunit to the large conductance Ca(2+)-activated K(+) channel in the absence of Ca(2+). Increased Ca(2+) sensitivity from a Ca(2+)-independent mechanism. J Gen Physiol 115:719-36 [PubMed]
Popescu IR, Frost WN (2002) Highly dissimilar behaviors mediated by a multifunctional network in the marine mollusk Tritonia diomedea. J Neurosci 22:1985-93 [PubMed]
Ramanathan K, Michael TH, Fuchs PA (2000) beta subunits modulate alternatively spliced, large conductance, calcium-activated potassium channels of avian hair cells. J Neurosci 20:1675-84 [PubMed]
Sah P, Faber ES (2002) Channels underlying neuronal calcium-activated potassium currents. Prog Neurobiol 66:345-53 [PubMed]
Sakakibara M, Alkon DL, Kouchi T, Inoue H, Yoshioka T (1994) Induction of photoresponse by the hydrolysis of polyphosphoinositides in the Hermissenda type B photoreceptor. Biochem Biophys Res Commun 202:299-306 [Journal] [PubMed]
Sakakibara M, Ikeno H, Usui S, Collin C, Alkon DL (1993) Reconstruction of ionic currents in a molluscan photoreceptor. Biophys J 65:519-27 [Journal] [PubMed]
Sakakibara M, Inoue H, Yoshioka T (1998) Evidence for the involvement of inositol trisphosphate but not cyclic nucleotides in visual transduction in Hermissenda eye. J Biol Chem 273:20795-801 [PubMed]
Schuman EM, Clark GA (1994) Synaptic facilitation at connections of Hermissenda type B photoreceptors. J Neurosci 14:1613-22 [PubMed]
West A, Barnes E, Alkon DL (1982) Primary changes of voltage responses during retention of associative learning. J Neurophysiol 48:1243-55 [Journal] [PubMed]
White JA, Banks MI, Pearce RA, Kopell NJ (2000) Networks of interneurons with fast and slow gamma-aminobutyric acid type A (GABAA) kinetics provide substrate for mixed gamma-theta rhythm. Proc Natl Acad Sci U S A 97:8128-33 [Journal] [PubMed]
Yamoah EN, Matzel L, Crow T (1998) Expression of different types of inward rectifier currents confers specificity of light and dark responses in type A and B photoreceptors of Hermissenda. J Neurosci 18:6501-11 [PubMed]
Zhang Y, Magoski NS, Kaczmarek LK (2002) Prolonged activation of Ca2+-activated K+ current contributes to the long-lasting refractory period of Aplysia bag cell neurons. J Neurosci 22:10134-41 [PubMed]
Butson CR, Clark GA (2008) Random noise paradoxically improves light-intensity encoding in Hermissenda photoreceptor network. J Neurophysiol 99:146-54 [Journal] [PubMed]
(50 refs)