Arnold Eskin

Q: What Schools Are Affiliated With Arnold Eskin

Arnold Eskin is affiliated with the following schools: University of California, Berkeley, University of Texas at Austin, University of Houston, Vanderbilt University, University of Chicago, Stanford University

Arnold Eskin's AcademicInfluence.com Rankings

Arnold Eskin

Biology

#8125

World Rank

#11153

Historical Rank

biology Degrees

Download Badge

Biology

Arnold Eskin's Degrees

Masters Biology Stanford University
Bachelors Biology Stanford University

Similar Degrees You Can Earn

Why Is Arnold Eskin Influential?

(Suggest an Edit or Addition)

According to Wikipedia, Arnold Eskin was a professor of chronobiology at the University of Houston in Houston, Texas. He attended Vanderbilt University, where he received a degree in physics. He later attended University of Texas at Austin, where he received his Ph.D. in zoology in 1969. He is recognized in the term Eskinogram, and has been a leader in the discovery of mechanisms underlying entrainment of circadian clocks.

(See a Problem?)

Arnold Eskin's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Role of Transforming Growth Factor-β in Long-Term Synaptic Facilitation in Aplysia (1997) (189)
Long-term potentiation and contextual fear conditioning increase neuronal glutamate uptake (2002) (156)
Entrainment of Circadian Rhythms by Sound in Passer domesticus (1966) (141)
The physiology of circadian pacemakers. (1978) (137)
Roles of second messenger pathways in neuronal plasticity and in learning and memory. Insights gained from Aplysia. (1993) (120)
Levels of Serotonin in the Hemolymph of AplysiaAre Modulated by Light/Dark Cycles and Sensitization Training (1999) (119)
Effects of divalent cations and metabolic poisons on the circadian rhythm from theAplysia eye (2004) (109)
Transforming Growth Factor β1 Alters Synapsin Distribution and Modulates Synaptic Depression inAplysia (2002) (96)
Mechanism for shifting the phase of a circadian rhythm by serotonin: involvement of cAMP. (1982) (95)
Serotonin shifts the phase of the circadian rhythm from the Aplysia eye. (1978) (94)
Neural and Molecular Bases of Nonassociative and Associative Learning in Aplysia a (1991) (91)
Adenylate cyclase activation shifts the phase of a circadian pacemaker. (1983) (84)
A Developmental Gene (Tolloid/BMP-1) Is Regulated inAplysia Neurons by Treatments that Induce Long-Term Sensitization (1997) (81)
Circadian modulation of complex learning in diurnal and nocturnal Aplysia. (2005) (80)
Alteration of the phase and period of a circadian oscillator by a reversible transcription inhibitor. (1991) (73)
Neurophysiological mechanisms involved in photo-entrainment of the circadian rhythm from the Aplysia eye. (1977) (73)
Different Mechanisms Exist for the Plasticity of Glutamate Reuptake during Early Long-Term Potentiation (LTP) and Late LTP (2006) (70)
TGF-beta1 in Aplysia: role in long-term changes in the excitability of sensory neurons and distribution of TbetaR-II-like immunoreactivity. (1999) (69)
Identification and physiology of circadian pacemakers. Introduction. (1979) (66)
Circadian modulation of long-term sensitization in Aplysia (2003) (61)
Long-term regulation of neuronal high-affinity glutamate and glutamine uptake in Aplysia. (2000) (58)
Circadian Clock in Photoperiodic Time Measurement: A Test of the B�nning Hypothesis (1967) (58)
Molecular approaches to understanding circadian oscillations. (1993) (57)
The Circadian Clock Modulates Core Steps in Long-Term Memory Formation in Aplysia (2006) (56)
Cyclic guanosine 3':5'-monophosphate mimics the effects of light on a circadian pacemaker in the eye of aplysia (1984) (54)
Relationship between increase in astrocytic GLT-1 glutamate transport and late-LTP. (2012) (49)
Localization of glutamate and glutamate transporters in the sensory neurons of Aplysia (2000) (49)
Circadian system of the Aplysia eye: properties of the pacemaker and mechanisms of its entrainment. (1979) (47)
TGF-beta1-induced long-term changes in neuronal excitability in aplysia sensory neurons depend on MAPK. (2006) (46)
Requirement for protein synthesis in the regulation of a circadian rhythm by serotonin. (1984) (46)
Eye of Navanax: Optic activity, circadian rhythm and morphology (1977) (45)
Properties of the Aplysia visual system: in vitro entrainment of the circadian rhythm and centrifugal regulation of the eye (1971) (43)
Information storage in the nervous system of Aplysia: specific proteins affected by serotonin and cAMP. (1989) (39)
Involvement of a specific protein in the regulation of a circadian rhythm in Aplysia eye. (1987) (39)
PKG-mediated MAPK signaling is necessary for long-term operant memory in Aplysia. (2011) (37)
Entrainment of the circadian rhythm from the eye of Aplysia: role of serotonin. (1982) (34)
Long-term changes in synthesis of intermediate filament protein, actin and other proteins in pleural sensory neurons of Aplysia produced by an in vitro analogue of sensitization training. (1993) (32)
Increasing external K+ blocks phase shifts in a circadian rhythm produced by serotonin or 8-benzylthio-cAMP. (1982) (32)
Immunocytochemical localization of serotonergic fibers innervating the ocular circadian system of Aplysia (1989) (31)
Role of calcium-calmodulin-dependent protein kinase II in modulation of sensorimotor synapses in Aplysia. (1997) (28)
The hunt for mechanisms of circadian timing in the eye of Aplysia. (1992) (27)
Responses of the Circadian System in the Aplysia Eye to Inhibitors of Protein Synthesis (1988) (26)
Coregulation of Glutamate Uptake and Long-Term Sensitization in Aplysia (2004) (25)
Involvement of proteins in light resetting ocular circadian oscillators of Aplysia. (1990) (25)
Changes in protein phosphorylation in the eye of Aplysia associated with circadian rhythm regulation by serotonin. (1990) (24)
Serotonin or electrical optic nerve stimulation increases the photosensitivity of the Aplysia eye (1982) (24)
Desensitization of postsynaptic glutamate receptors contributes to high-frequency homosynaptic depression of aplysia sensorimotor connections. (2003) (23)
Polypeptide secretion from the eye of Aplysia californica (1976) (22)
Transmitterlike action of serotonin in phase shifting a rhythm from the Aplysia eye. (1982) (22)
Non-Ocular Circadian Oscillators and Photoreceptors Modulate Long Term Memory Formation in Aplysia (2006) (22)
Training with inedible food in Aplysia causes expression of C/EBP in the buccal but not cerebral ganglion. (2008) (22)
Effects of Cyclin‐Dependent Kinase Inhibitors on Transcription and Ocular Circadian Rhythm of Aplysia (1999) (21)
Intermediate-Term Memory is Modulated by the Circadian Clock (2008) (20)
Common set of proteins inAplysia sensory neurons affected by an in vitro analogue of long-term sensitization training, 5-HT and cAMP (1991) (19)
XIII Modification of Vestibular Sensitivity in the Rat (1967) (18)
Regulation of glutamate transporter GLT‐1 by MAGI‐1 (2011) (18)
Identification of Three Proteins in the Eye of Aplysia, Whose Synthesis Is Altered by Serotonin (5-HT). POSSIBLE INVOLVEMENT OF THESE PROTEINS IN THE OCULAR CIRCADIAN SYSTEM (*) (1995) (18)
Characterization of Neuronal Protein Phosphatases in Aplysia californica (1992) (18)
Identification of an Annexin‐Like Protein and Its Possible Role in the Aplysia Eye Circadian System (1993) (17)
Dynamics of protein phosphorylation in sensory neurons of Aplysia (1995) (16)
Phase shifting a circadian rhythm in the eye ofAplysia by high potassium pulses (1972) (16)
Circadian regulation of a transcription factor, ApC/EBP, in the eye of Aplysia californica (2002) (15)
Aging Affects the Ocular Circadian Pacemaker of Aplysia californica (1999) (15)
Glutamate uptake in synaptic plasticity: from mollusc to mammal. (2002) (15)
Differential effects of amino acids on the period of the circadian rhythm from the Aplysia eye. (1982) (14)
The Use of a Reversible Transcription Inhibitor, DRB, to Investigate the Involvement of Specific Proteins in the Ocular Circadian System of Aplysia (1996) (13)
Inhibitor of glutamate transport alters synaptic transmission at sensorimotor synapses in Aplysia. (2002) (12)
In vivo regulation of an Aplysia glutamate transporter, ApGT1, during long‐term memory formation (2007) (10)
Neuronal mechanisms contributing to long-term sensitization in Aplysia. (1988) (8)
Effects on protein synthesis produced by pairing depolarization with serotonin, an analogue of associative learning in Aplysia. (1994) (8)
Identification of specific mRNAs affected by treatments producing long-term facilitation in Aplysia. (1998) (8)
Cellular and Molecular Analysis of Molluscan Circadian Pacemakers (2001) (7)
Circadian rhythms (1993) (6)
Identification of two phosphoproteins affected by serotonin in Aplysia sensory neurons (1997) (6)
Common in vitro set of proteins in Aplysia sensory neurons affected by an analogue of long-term sensitization training, 5-HT and cAMP (1991) (5)
Post‐translational regulation of an Aplysia glutamate transporter during long‐term facilitation (2009) (5)
Neural and Molecular Mechanisms of Short — and Long—Term Sensitization in Aplysia (1988) (3)
A transmitter role for serotonin in the Aplysia eye (1979) (1)
Aplysia Transmission at Sensorimotor Synapses in Inhibitor of Glutamate Transport Alters Synaptic (2015) (0)
CHANGES IN SPONTANEOUS ACTIVITY AS A MEASURE OF SENSITIVITY TO ROTATION IN THE WHITE RAT. NSAM-913. (1965) (0)
OF CIRCADIAN PACEMAKERS (1978) (0)
HISTOCHEMICAL DEMONSTRATION OF SELECTIVE TOXIC DEAFFERENTATION IN THE PRIMATE VISUAL SYSTEM T (1985) (0)
Activation ERK Increased Synaptic Gain That Does Not Require Sensorimotor Synapse During Bursts: Aplysia Induced Short-Term Facilitation at - Analysis of 5-HT (2015) (0)
Gene Regulation in Memory Formation and Circadian Rhythms (1994) (0)
THE EFFECTS OF ENVIRONMENTAL TEMPERATURE CHANGES ON THE EKG OF THE SQUIRREL MONKEY (SAIMIRI SCIUREUS) (1965) (0)
Homosynaptic Depression of Aplysia Sensorimotor Connections Desensitization of Postsynaptic Glutamate Receptors Contributes to High-Frequency (2008) (0)
The effects of environmental temperature changes on the EKG of the squirrel monkey (Saimiri sciureus). NSAM-926. (1965) (0)

This paper list is powered by the following services:

Other Resources About Arnold Eskin

What Schools Are Affiliated With Arnold Eskin?

Arnold Eskin is affiliated with the following schools:

Arnold Eskin's Academic­Influence.com Rankings