All Stories

  1. Long-range monosynaptic inputs targeting apical and basal dendrites of primary motor cortex deep output neurons

    Article • Cerebral Cortex, December 2021, Oxford University Press (OUP)

    Professor Gordon William Arbuthnott

  2. <em>In Vivo</em> Wireless Optogenetic Control of Skilled Motor Behavior

    Article • Journal of Visualized Experiments, November 2021, MyJove Corporation

    Professor Gordon William Arbuthnott

  3. An Introspective Approach: A Lifetime of Parkinson’s Disease Research and Not Much to Show for It Yet?

    Article • Cells, February 2021, MDPI AG

    Professor Gordon William Arbuthnott

  4. Striatal bilateral control of skilled forelimb movement

    Article • Cell Reports, January 2021, Elsevier

    Professor Gordon William Arbuthnott

  5. Connections between motor areas of the rat brain and a 'decision making' area.

    Article • Brain Structure and Function, July 2020, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  6. Parkinsonism in mice results from overactivity of both sets of striatal output neurons.

    Article • European Journal of Neuroscience, January 2019, Wiley

    Professor Gordon William Arbuthnott

  7. A Cortical Substrate for Parkinsonism: A Personal Journey

    Article • International Journal of Clinical Research & Trials, December 2018, Graphy Publications

    Professor Gordon William Arbuthnott

  8. Decision making in brain involves deep structures as well as the cortex.

    Article • European Journal of Neuroscience, December 2018, Wiley

    Professor Gordon William Arbuthnott

  9. The striatum has cells making acetylcholine with very many local connections

    Article • European Journal of Neuroscience, May 2018, Wiley

    Professor Gordon William Arbuthnott

  10. Fiber-bundle-basis sparse reconstruction for high resolution wide-field microendoscopy

    Article • Biomedical Optics Express, March 2018, Optical Society of America (OSA)

    Professor Gordon William Arbuthnott

  11. Refinement of learned skilled movement representation in motor cortex deep output layer

    Article • Nature Communications, June 2017, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  12. Are the Symptoms of Parkinsonism Cortical in Origin?

    Article • Computational and Structural Biotechnology Journal, January 2017, Elsevier

    Professor Gordon William Arbuthnott

  13. Presynaptic D1 heteroreceptors and mGlu autoreceptors act at individual cortical release sites to modify glutamate release

    Article • Brain Research, May 2016, Elsevier

    Professor Gordon William Arbuthnott

  14. Cerebellar sub-divisions differ in exercise-induced plasticity of noradrenergic axons and in their association with resilience to activity-based anorexia

    Article • Brain Structure and Function, April 2016, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  15. Advances in Fibre Microendoscopy for Neuronal Imaging

    Article • Optical Data Processing and Storage, January 2016, De Gruyter

    Professor Gordon William Arbuthnott

  16. Fiber Bundle in-vivo Epifluorescence Microscopy with Image Reconstruction

    Article • January 2016, Optical Society of America (OSA)

    Professor Gordon William Arbuthnott

  17. Basal ganglia—thalamus and the “crowning enigma”

    Article • Frontiers in Neural Circuits, November 2015, Frontiers

    Professor Gordon William Arbuthnott

  18. Cell Assembly Signatures Defined by Short-Term Synaptic Plasticity in Cortical Networks

    Article • International Journal of Neural Systems, November 2015, World Scientific Pub Co Pte Lt

    Professor Gordon William Arbuthnott

  19. Rebuilding a realistic corticostriatal “social network” from dissociated cells

    Article • Frontiers in Systems Neuroscience, April 2015, Frontiers

    Professor Gordon William Arbuthnott

  20. Erratum to: The neostriatum: two entities, one structure?

    Article • Brain Structure and Function, March 2015, Springer Science + Business Media

    Michael Lazarus, Professor Gordon William Arbuthnott

  21. The neostriatum: two entities, one structure?

    Article • Brain Structure and Function, February 2015, Springer Science + Business Media

    Michael Lazarus, Professor Gordon William Arbuthnott

  22. Extrasynaptic glutamate NMDA receptors: Key players in striatal function

    Article • Neuropharmacology, February 2015, Elsevier

    Professor Gordon William Arbuthnott

  23. Cortical Effects of Deep Brain Stimulation

    Article • JAMA Neurology, January 2014, American Medical Association (AMA)

    Professor Gordon William Arbuthnott

  24. Thalamostriatal synapses—another substrate for dopamine action?

    Article • January 2014, Elsevier

    Professor Gordon William Arbuthnott

  25. Absence seizures arising from a mutation that causes selective loss of AMPA receptors within thalamocortical networks

    Article • Journal of the Neurological Sciences, October 2013, Elsevier

    Professor Gordon William Arbuthnott

  26. FRETing over dopamine: single cell cAMP and protein kinase A responses to 100 ms dopamine application

    Article • The Journal of Physiology, July 2013, Wiley

    Professor Gordon William Arbuthnott

  27. Finding active projections in a terminal system

    Article • Frontiers in Neuroinformatics, January 2013, Frontiers

    Professor Gordon William Arbuthnott

  28. Therapeutic Deep Brain Stimulation in Parkinsonian Rats Directly Influences Motor Cortex

    Article • Neuron, December 2012, Elsevier

    Professor Gordon William Arbuthnott

  29. Selective loss of AMPA receptors at corticothalamic synapses in the epileptic stargazer mouse

    Article • Neuroscience, August 2012, Elsevier

    Professor Gordon William Arbuthnott

  30. Development of dissociated cryopreserved rat cortical neurons in vitro

    Article • Journal of Neuroscience Methods, April 2012, Elsevier

    Professor Gordon William Arbuthnott

  31. Power Fluctuations in Beta and Gamma Frequencies in Rat Globus Pallidus: Association with Specific Phases of Slow Oscillations and Differential Modulation by Dopamine D1 and D2 Receptors

    Article • Journal of Neuroscience, April 2011, Society for Neuroscience

    Professor Gordon William Arbuthnott

  32. The Corticostriatal System in Dissociated Cell Culture

    Article • Frontiers in Systems Neuroscience, January 2011, Frontiers

    Professor Gordon William Arbuthnott

  33. Rats chasing their tails don't seem "Parkinsonian'

    Article • January 2011, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  34. Striatal interneurons in dissociated cell culture

    Article • Histochemistry and Cell Biology, May 2010, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  35. The rotational model and microdialysis: Significance for dopamine signalling, clinical studies, and beyond

    Article • Progress in Neurobiology, February 2010, Elsevier

    Professor Gordon William Arbuthnott

  36. Neuropharmacology

    Article • January 2010, Elsevier

    Professor Gordon William Arbuthnott

  37. Dopamine D2 receptor-expressing striatal projection neurons display long term potentiation after high frequency stimulation of cortical afferents

    Article • Neuroscience Research, January 2010, Elsevier

    Professor Gordon William Arbuthnott

  38. Functional Anatomy: Dynamic States in Basal Ganglia Circuits

    Article • Frontiers in Neuroanatomy, January 2010, Frontiers

    Professor Gordon William Arbuthnott

  39. Gating of Cortical Input to the Striatum

    Article • January 2010, Elsevier

    Professor Gordon William Arbuthnott

  40. Dealing with the devil in the detail – some thoughts about the next model of the basal ganglia

    Article • Parkinsonism & Related Disorders, December 2009, Elsevier

    Professor Gordon William Arbuthnott

  41. Lithium Neurotoxicity. I. The Concentration of Lithium in Dopaminergic Systems of Rat Brain Determined by Flameless Atomic Absorption Spectrophotometry

    Article • Acta Pharmacologica et Toxicologica, March 2009, Wiley

    Professor Gordon William Arbuthnott

  42. Slowly Progressive Dopamine Cell Loss - A Model on which to Test Neuroprotective Strategies for Parkinson's Disease?

    Article • Reviews in the Neurosciences, January 2009, De Gruyter

    Professor Gordon William Arbuthnott

  43. Cortical Effects of Subthalamic Stimulation Correlate with Behavioral Recovery from Dopamine Antagonist Induced Akinesia

    Article • Cerebral Cortex, September 2008, Oxford University Press (OUP)

    Professor Gordon William Arbuthnott

  44. Microglial activation is not prevented by tacrolimus but dopamine neuron damage is reduced in a rat model of Parkinson's disease progression

    Article • Brain Research, June 2008, Elsevier

    Professor Gordon William Arbuthnott

  45. Actions of Adenosine A2A Receptors on Synaptic Connections of Spiny Projection Neurons in the Neostriatal Inhibitory Network

    Article • Journal of Neurophysiology, April 2008, American Physiological Society

    Professor Gordon William Arbuthnott

  46. Resonant Antidromic Cortical Circuit Activation as a Consequence of High-Frequency Subthalamic Deep-Brain Stimulation

    Article • Journal of Neurophysiology, December 2007, American Physiological Society

    Professor Gordon William Arbuthnott

  47. The influence of the subthalamic nucleus upon the damage to the dopamine system following lesions of globus pallidus in rats

    Article • European Journal of Neuroscience, July 2007, Wiley

    Professor Gordon William Arbuthnott

  48. Striatal Contributions to Reward and Decision Making: Making Sense of Regional Variations in a Reiterated Processing Matrix

    Article • Annals of the New York Academy of Sciences, April 2007, Wiley

    Professor Gordon William Arbuthnott

  49. Space, time and dopamine

    Article • Trends in Neurosciences, February 2007, Elsevier

    Professor Gordon William Arbuthnott

  50. Simulation of GABA function in the basal ganglia: computational models of GABAergic mechanisms in basal ganglia function

    Article • January 2007, Elsevier

    Professor Gordon William Arbuthnott

  51. Neurone specific regulation of dendritic spines in vivo by post synaptic density 95 protein (PSD-95)

    Article • Brain Research, May 2006, Elsevier

    Professor Gordon William Arbuthnott

  52. Delayed synaptic degeneration in the CNS of Wlds mice after cortical lesion

    Article • Brain, April 2006, Oxford University Press (OUP)

    Professor Gordon William Arbuthnott

  53. Selective elimination of glutamatergic synapses on striatopallidal neurons in Parkinson disease models

    Article • Nature Neuroscience, January 2006, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  54. Chapter IV Structural and functional interactions in the striatum at the receptor level

    Article • January 2005, Elsevier

    Professor Gordon William Arbuthnott

  55. Evidence of a breakdown of corticostriatal connections in Parkinson’s disease

    Article • Neuroscience, January 2005, Elsevier

    Professor Gordon William Arbuthnott

  56. Death of dopaminergic neurones in the rat substantia nigra can be induced by damage to globus pallidus

    Article • European Journal of Neuroscience, October 2004, Wiley

    Professor Gordon William Arbuthnott

  57. Pathologic gambling in Parkinson's disease: A behavioral manifestation of pharmacologic treatment?

    Article • Movement Disorders, September 2000, Wiley

    Professor Félix Javier Jiménez-Jiménez, Professor Gordon William Arbuthnott

  58. Computational models of the basal ganglia

    Article • Movement Disorders, September 2000, Wiley

    Professor Gordon William Arbuthnott

  59. Acute in vivo neurotoxicity of peptides from Maedi Visna virus transactivating protein Tat

    Article • Brain Research, June 1999, Elsevier

    Professor Gordon William Arbuthnott

  60. Double anterograde tracing of outputs from adjacent “barrel columns” of rat somatosensory cortex. Neostriatal projection patterns and terminal ultrastructure

    Article • Neuroscience, January 1999, Elsevier

    Professor Gordon William Arbuthnott

  61. Effects of potassium channel blockers on synaptic plasticity in the corticostriatal pathway

    Article • Neuropharmacology, April 1998, Elsevier

    Professor Gordon William Arbuthnott

  62. Plasticity of striatopallidal terminals following unilateral lesion of the dopaminergic nigrostriatal pathway: a morphological study

    Article • Experimental Brain Research, August 1997, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  63. Modulation by Dopamine of Rat Corticostriatal Input

    Article • January 1997, Elsevier

    Professor Gordon William Arbuthnott

  64. Dopamine cells are neurones too!

    Article • Trends in Neurosciences, July 1996, Elsevier

    Professor Gordon William Arbuthnott

  65. Presynaptic mechanisms of neurotransmission

    Article • Trends in Neurosciences, April 1996, Elsevier

    Professor Gordon William Arbuthnott

  66. Dopamine reverses the depression of rat corticostriatal synapses which normally follows high-frequency stimulation of cortex In vitro

    Article • Neuroscience, January 1996, Elsevier

    Professor Gordon William Arbuthnott

  67. Neurotoxic mechanisms of transactivating protein Tat of Maedi-Visna virus

    Article • Neuroscience Letters, September 1995, Elsevier

    Professor Gordon William Arbuthnott

  68. Inhibition of Neuronal Nitric Oxide Synthase by 7-Nitroindazole: Effects upon Local Cerebral Blood Flow and Glucose Use in the Rat

    Article • Journal of Cerebral Blood Flow & Metabolism, September 1995, SAGE Publications

    Professor Gordon William Arbuthnott

  69. Identified cholinergic neurones in the adult rat brain are enriched in GAP-43 mRNA: a double in situ hybridisation study

    Article • Journal of Chemical Neuroanatomy, July 1995, Elsevier

    Professor Gordon William Arbuthnott

  70. In vivo detection of immunoreactive neurokinin A release within rat substantia nigra and its dependency on a dopaminergic input

    Article • Brain Research, May 1995, Elsevier

    Professor Gordon William Arbuthnott

  71. The Basic Domain of the Lentiviral Tat Protein Is Responsible for Damages in Mouse Brain: Involvement of Cytokines

    Article • Virology, December 1994, Elsevier

    Professor Gordon William Arbuthnott

  72. Morphological Investigations of Single Neurons in Vitro.Gloria E. Meredith , Gordon W. Arbuthnott

    Article • The Quarterly Review of Biology, December 1994, University of Chicago Press

    Professor Gordon William Arbuthnott

  73. Involvement of Viral Regulatory Gene Products in the Pathogenesis of Lentivirus Infections

    Article • Annals of the New York Academy of Sciences, May 1994, Wiley

    Professor Gordon William Arbuthnott

  74. Cerebrovascular autoregulation in response to hypertension induced by NG-nitro-l-arginine methyl ester

    Article • Neuroscience, March 1994, Elsevier

    Professor Gordon William Arbuthnott

  75. Dendritic domains of medium spiny neurons in the primate striatum: Relationships to striosomal borders

    Article • The Journal of Comparative Neurology, November 1993, Wiley

    Professor Gordon William Arbuthnott

  76. Ultrastructural characteristics of enkephalin-immunoreactive boutons and their postsynaptic targets in the shell and core of the nucleus accumbens of the rat

    Article • The Journal of Comparative Neurology, June 1993, Wiley

    Professor Gordon William Arbuthnott

  77. Substance P release from rat nucleus accumbens and striatum: an in vivo study using antibody microprobes

    Article • Brain Research, May 1993, Elsevier

    Professor Gordon William Arbuthnott

  78. Distribution of thyrotrophin-releasing hormone receptor messenger RNA in rat pituitary and brain

    Article • Neuroscience, April 1993, Elsevier

    Professor Gordon William Arbuthnott

  79. Neurotoxicity of peptide analogues of the transactivating protein tat from maedi-visna virus and human immunodeficiency virus

    Article • Neuroscience, March 1993, Elsevier

    Professor Gordon William Arbuthnott

  80. Morphological changes in the rat neostriatum after unilateral 6-hydroxydopamine injections into the nigrostriatal pathway

    Article • Experimental Brain Research, February 1993, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  81. Chapter 21 The corticostriatal system on computer simulation: an intermediate mechanism for sequencing of actions

    Article • January 1993, Elsevier

    Professor Gordon William Arbuthnott

  82. Chapter 22 The thorny problem of what dopamine does in psychiatric disease

    Article • January 1993, Elsevier

    Professor Gordon William Arbuthnott

  83. Astrocytes immunoreactive for glial fibrillary acidic protein (GFAP) are increased in the mediobasal hypothalamus in hypogonadal (hpg) mice

    Article • Molecular and Cellular Neuroscience, December 1992, Elsevier

    Professor Gordon William Arbuthnott

  84. Serotonin hyperinnervation after foetal nigra or raphe transplantation in the neostriatum of adult rats

    Article • Neuroscience Letters, July 1991, Elsevier

    Professor Gordon William Arbuthnott

  85. A light and electron microscopical study of enkephalin-immunoreactive structures in the rat neostriatum after removal of the nigrostriatal dopaminergic pathway

    Article • Neuroscience, January 1991, Elsevier

    Professor Gordon William Arbuthnott

  86. Glial fibrillary acidic protein (GFAP)-immunoreactive astrocytes are increased in the hypothalamus of androgen-insensitive testicular feminized (Tfm) mice

    Article • Neuroscience Letters, October 1990, Elsevier

    Professor Gordon William Arbuthnott

  87. Brain microdialysis studies on the control of dopamine release and metabolism in vivo

    Article • Journal of Neuroscience Methods, September 1990, Elsevier

    Professor Gordon William Arbuthnott

  88. Effects of Selective Monoamine Oxidase Inhibitors on the In Vivo Release and Metabolism of Dopamine in the Rat Striatum

    Article • Journal of Neurochemistry, September 1990, Wiley

    Professor Gordon William Arbuthnott

  89. In Vivo Mechanisms Underlying Dopamine Release from Rat Nigrostriatal Terminals: I. Studies Using Veratrine and Ouabain

    Article • Journal of Neurochemistry, June 1990, Wiley

    Professor Gordon William Arbuthnott

  90. In Vivo Mechanisms Underlying Dopamine Release from Rat Nigrostriatal Terminals: II. Studies Using Potassium and Tyramine

    Article • Journal of Neurochemistry, June 1990, Wiley

    Professor Gordon William Arbuthnott

  91. Distribution and synaptic contacts of the cortical terminals arising from neurons in the rat ventromedial thalamic nucleus

    Article • Neuroscience, January 1990, Elsevier

    Professor Gordon William Arbuthnott

  92. Dopamine release and metabolism in the rat striatum: An analysis by ‘in vivo’ brain microdialysis

    Article • Pharmacology & Therapeutics, January 1990, Elsevier

    Professor Gordon William Arbuthnott

  93. Electrophysiological properties of nigrothalamic neurons after 6-hydroxydopamine lesions in the rat

    Article • Neuroscience, January 1990, Elsevier

    Professor Gordon William Arbuthnott

  94. Chapter 43 Identification of grafted neurons with fluorescent-labelled microbeads

    Article • January 1990, Elsevier

    Professor Gordon William Arbuthnott

  95. Spine density on neostriatal neurones changes with 6-hydroxydopamine lesions and with age

    Article • Brain Research, December 1989, Elsevier

    Professor Gordon William Arbuthnott

  96. The influence of the estrous cycle on the activity of striatal neurons recorded from freely moving rats

    Article • Neuroscience Letters, December 1989, Elsevier

    Professor Gordon William Arbuthnott

  97. From message to mind: Directions in developmental neurobiology

    Article • Journal of Psychosomatic Research, January 1989, Elsevier

    Professor Gordon William Arbuthnott

  98. Electrophysiological and anatomical observations concerning the pallidostriatal pathway in the rat

    Article • Experimental Brain Research, January 1989, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  99. Amphetamine-Induced Dopamine Release in the Rat Striatum: An In Vivo Microdialysis Study

    Article • Journal of Neurochemistry, February 1988, Wiley

    Professor Gordon William Arbuthnott

  100. Basal ganglia and behavior: Sensory aspects of motor functioning

    Article • Journal of Psychosomatic Research, January 1988, Elsevier

    Professor Gordon William Arbuthnott

  101. An afterhyperpolarization recorded in striatal cells ?in vitro?: effect of dopamine administration

    Article • Experimental Brain Research, January 1988, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  102. Graft-derived recovery from 6-OHDA lesions: specificity of ventral mesencephalic graft tissues

    Article • Experimental Brain Research, January 1988, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  103. Electrophysiological demonstration of host cortical inputs to striatal grafts

    Article • Neuroscience Letters, December 1987, Elsevier

    Professor Gordon William Arbuthnott

  104. Immunohistochemical localization of a spectrin-like protein (fodrin) in nerve cells in culture

    Article • Neuroscience Letters, January 1986, Elsevier

    Professor Gordon William Arbuthnott

  105. Separation of the motor consequences from other actions of unilateral 6-hydroxydopamine lesions in the nigrostriatal neurones of rat brain

    Article • Brain Research, December 1985, Elsevier

    Professor Gordon William Arbuthnott

  106. Different patterns of molecular forms of somatostatin are released by the rat median eminence and hypothalamus

    Article • Neuroscience Letters, June 1985, Elsevier

    Professor Gordon William Arbuthnott

  107. Electrophysiological properties of single units in dopamine-rich mesencephalic transplants in rat brain

    Article • Neuroscience Letters, June 1985, Elsevier

    Professor Gordon William Arbuthnott

  108. Schneider's First-Rank Symptoms of Schizophrenia

    Article • Archives of General Psychiatry, November 1984, American Medical Association (AMA)

    Professor Gordon William Arbuthnott

  109. The electrophysiology of dopamine (D2) receptors: A study of the actions of dopamine on corticostriatal transmission

    Article • Neuroscience, October 1983, Elsevier

    Professor Gordon William Arbuthnott

  110. An action of sex hormone on an area of brain not usually associated with sex.

    Article • Neuroendocrinology, January 1983, Karger Publishers

    Professor George Fink, Professor Gordon William Arbuthnott

  111. The anatomical substrate of the turning behaviour seen after lesions in the nigrostriatal dopamine system

    Article • Neuroscience, January 1983, Elsevier

    Professor Gordon William Arbuthnott

  112. Orthograde transport of nuclear yellow: a problem and its solution

    Article • Journal of Neuroscience Methods, November 1982, Elsevier

    Professor Gordon William Arbuthnott

  113. Participation of projections from substantia nigra reticulata to the lower brain stem in turning behavior

    Article • Experimental Neurology, November 1982, Elsevier

    Professor Gordon William Arbuthnott

  114. Some non-fluorescent connections of the nigro-neostriatal dopamine neurones

    Article • Brain Research Bulletin, July 1982, Elsevier

    Professor Gordon William Arbuthnott

  115. Crossed connections of the substantia nigra in the rat

    Article • The Journal of Comparative Neurology, May 1982, Wiley

    Professor Gordon William Arbuthnott

  116. Increases in dopamine metabolism are not a general feature of intracranial self-stimulation

    Article • Life Sciences, March 1982, Elsevier

    Professor Gordon William Arbuthnott

  117. Support for the hypothesis that the actions of dopamine are “not merely motor.”

    Article • Behavioral and Brain Sciences, March 1982, Cambridge University Press

    Professor Gordon William Arbuthnott

  118. The effect of DSP-4 on some positively reinforced operant behaviors in the rat

    Article • Pharmacology Biochemistry and Behavior, February 1982, Elsevier

    Professor Gordon William Arbuthnott

  119. The pattern of innervation of the corpus striatum by the substantia nigra

    Article • Neuroscience, October 1981, Elsevier

    Professor Gordon William Arbuthnott

  120. The role of dopamine in pontine intracranial self-stimulation: A re-examination of the problem

    Article • Neuroscience Letters, October 1981, Elsevier

    Professor Gordon William Arbuthnott

  121. UPTAKE OF 5-HYDROXYTRYPTAMINE IN THE CATECHOLAMINE CONTAINING AREAS OF THE HYPOTHALAMUS OF THE RAT AFTER TREATMENT WITH PHENELZINE AND TRYPTOPHAN

    Article • Bone Marrow Transplantation, May 1981, Wiley

    Professor Gordon William Arbuthnott

  122. Altered paw preference after unilateral 6-hydroxy-dopamine injections into lateral hypothalamus

    Article • Neuropsychologia, January 1981, Elsevier

    Professor Gordon William Arbuthnott

  123. The use of ultra-violet setting glue for microelectrode fabrication

    Article • Journal of Neuroscience Methods, December 1980, Elsevier

    Professor Gordon William Arbuthnott

  124. Non-dopamine containing efferents of substantia nigra: The pathway to the lower brain stem

    Article • Acta Neurovegetativa, September 1980, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  125. The dopamine synapse and the notion of ‘pleasure centres’ in the brain

    Article • Trends in Neurosciences, August 1980, Elsevier

    Professor Gordon William Arbuthnott

  126. Possible links between hypothalamus and substantia nigra in the rat

    Article • Appetite, March 1980, Elsevier

    Professor Gordon William Arbuthnott

  127. Identification of 5-hydroxytryptamine in the presence of catecholamines by microspectrofluorimetry

    Article • Journal of Pharmacological Methods, February 1980, Elsevier

    Professor Gordon William Arbuthnott

  128. Cyclic nucleotide losses during tissue processing for immunohistochemistry.

    Article • Journal of Histochemistry & Cytochemistry, January 1980, SAGE Publications

    Professor Gordon William Arbuthnott

  129. Electrophysiological evidence for an input from the anterior olfactory nucleus to substantia nigra

    Article • Experimental Neurology, October 1979, Elsevier

    Professor Gordon William Arbuthnott

  130. Interactions between serotonergic and dopaminergic systems in rat brain demonstrated by small unilateral lesions of the raphe nuclei

    Article • European Journal of Pharmacology, August 1979, Elsevier

    Professor Gordon William Arbuthnott

  131. CHOLINE IN ALZHEIMER'S DISEASE

    Article • The Lancet, November 1978, Elsevier

    Professor Gordon William Arbuthnott

  132. The striatonigral fibres and the feedback control of dopamine metabolism1

    Article • Psychological Medicine, August 1978, Cambridge University Press

    Professor Gordon William Arbuthnott

  133. The effect of chronic lithium administration on dopamine metabolism in rat striatum

    Article • Psychopharmacology, January 1978, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  134. Feedback loop or output pathway in striato-nigral fibres?

    Article • Nature, January 1977, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  135. Studies of the afferent pathways to substantia nigra

    Article • Neuroscience Letters, September 1976, Elsevier

    Professor Gordon William Arbuthnott

  136. THE RELATIONSHIP BETWEEN NORADRENALINE TURNOVER IN CEREBRAL CORTEX AND ELECTRICAL SELF-STIMULATION THROUGH ELECTRODES IN THE REGION OF LOCUS COERULEUS

    Article • Journal of Neurochemistry, April 1975, Wiley

    Professor Gordon William Arbuthnott

  137. Turning behavior induced by electrical stimulation of the nigro-neostriatal system of the rat

    Article • Experimental Neurology, April 1975, Elsevier

    Professor Gordon William Arbuthnott

  138. THE RELATIONSHIP BETWEEN NORADRENALINE TURNOVER IN CEREBRAL CORTEX AND ELECTRICAL SELF-STIMULATION THROUGH ELECTRODES IN THE REGION OF LOCUS COERULEUS

    Article • Journal of Neurochemistry, April 1975, Wiley

    Professor Gordon William Arbuthnott

  139. Lesions of the locus ceruleus and noradrenaline metabolism in cerebral cortex

    Article • Experimental Neurology, November 1973, Elsevier

    Professor Gordon William Arbuthnott

  140. The effect of unilateral and bilateral lesions in the locus coeruleus on the levels of 3-methoxy-4-hydroxyphenylglycol (MHPG) in neocortex

    Article • Cellular and Molecular Life Sciences, January 1973, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  141. Function of Catecholamine-containing Neurones in Mammalian Central Nervous System

    Article • Nature New Biology, August 1972, Springer Science + Business Media

    Professor Gordon William Arbuthnott

  142. Intracranial self-stimulation with electrodes in the region of the locus coeruleus

    Article • Brain Research, January 1972, Elsevier

    Professor Gordon William Arbuthnott

  143. Central catecholamine turnover and self-stimulation behaviour

    Article • Brain Research, April 1971, Elsevier

    Professor Gordon William Arbuthnott, Professor Kjell Fuxe

  144. Relation of contraversive turning to unilateral release of dopamine from the nigrostriatal pathway in rats

    Article • Experimental Neurology, March 1971, Elsevier

    Professor Gordon William Arbuthnott

  145. Depletion of catecholaminesin vivo induced by electrical stimulation of central monoamine pathways

    Article • Brain Research, December 1970, Elsevier

    Professor Gordon William Arbuthnott, Professor Kjell Fuxe

  146. Quantitative recording of rotational behavior in rats after 6-hydroxy-dopamine lesions of the nigrostriatal dopamine system

    Article • Brain Research, December 1970, Elsevier

    Professor Gordon William Arbuthnott

  147. NORADRENALINE UPTAKE INTO CEREBAL CORTEX: A HISTOCHEMICAL STUDY

    Article • Journal of Neurochemistry, December 1969, Wiley

    Professor Gordon William Arbuthnott

  148. Effects of dopamine on interaction of the two corticostriatal systems in rat somatosensory striatum

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Professor Gordon William Arbuthnott