The scientist’s investigation covers issues in Cell biology, Neurite, Neural cell adhesion molecule, Cell adhesion molecule and Diacylglycerol lipase. The various areas that Patrick Doherty examines in his Cell biology study include Cadherin, Anatomy and Gene isoform. His Neurite research includes themes of 3T3 cells, Fibroblast growth factor, Second messenger system, Neuroscience and Dorsal root ganglion.
In his research on the topic of Fibroblast growth factor, Molecular biology, Kinase and Semaphorin is strongly related with Phosphorylation. His Neural cell adhesion molecule study combines topics in areas such as Immunology, Cytoplasm, Fibroblast growth factor receptor and Neuron. His biological study spans a wide range of topics, including Neurogenesis, Endocrinology and 2-Arachidonoylglycerol, Cannabinoid receptor.
His primary areas of study are Cell biology, Neurite, Neural cell adhesion molecule, Cell adhesion molecule and Neuroscience. His Cell biology study integrates concerns from other disciplines, such as 3T3 cells, Biochemistry and Fibroblast growth factor receptor, Fibroblast growth factor. Patrick Doherty combines subjects such as Neuron, Molecular biology, Integrin, Second messenger system and Growth cone with his study of Neurite.
He works mostly in the field of Neural cell adhesion molecule, limiting it down to topics relating to Voltage-dependent calcium channel and, in certain cases, Calcium in biology, as a part of the same area of interest. His Cell adhesion molecule research incorporates elements of Cadherin, Function and Alternative splicing. He interconnects Subventricular zone, Neurotrophic factors and Endocannabinoid system in the investigation of issues within Neuroscience.
Patrick Doherty mainly focuses on Endocannabinoid system, Cell biology, Neurogenesis, Neuroscience and Neuroblast migration. His research in Endocannabinoid system intersects with topics in Agonist, Cannabinoid receptor, Retrograde signaling and Neurotrophin. In the field of Cell biology, his study on Signal transduction overlaps with subjects such as Cancer cell.
His work in Signal transduction addresses subjects such as Cholinergic, which are connected to disciplines such as Extracellular, Growth cone, Neurite and Nerve growth factor. The study incorporates disciplines such as Severe disease, Human cancer, Signalling and Cognitive decline in addition to Neuroscience. His work in Neuroblast migration tackles topics such as Rostral migratory stream which are related to areas like Molecular biology.
His primary scientific interests are in Cell biology, Neurogenesis, Signal transduction, Neuroblast migration and Endocannabinoid system. Cell biology and Exocyst are two areas of study in which Patrick Doherty engages in interdisciplinary work. His study focuses on the intersection of Neurogenesis and fields such as Cell migration with connections in the field of Cellular differentiation, Homeostasis, Nervous system, Neuroscience and Signalling.
His Signal transduction study incorporates themes from Nerve growth factor, Lipid metabolism, Lipidomics and Cancer research. Patrick Doherty works mostly in the field of Neuroblast migration, limiting it down to concerns involving Ganglion mother cell and, occasionally, Olfactory bulb and Molecular biology. His study in Endocannabinoid system is interdisciplinary in nature, drawing from both Neurite, Neurotrophin, Cholinergic and Cell fate determination.
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A novel role for myelin-associated glycoprotein as an inhibitor of axonal regeneration
Gitali Mukhopadhyay;Patrick Doherty;Frank S. Walsh;Paul R. Crocker.
Cloning of the first sn1-DAG lipases points to the spatial and temporal regulation of endocannabinoid signaling in the brain
Tiziana Bisogno;Fiona Howell;Gareth Williams;Alberto Minassi.
Journal of Cell Biology (2003)
Activation of the FGF receptor underlies neurite outgrowth stimulated by L1, N-CAM, and N-cadherin
Emma J. Williams;Josie Furness;Frank S. Walsh;Patrick Doherty.
Neural cell adhesion molecules of the immunoglobulin superfamily: role in axon growth and guidance.
Frank S. Walsh;Patrick Doherty.
Annual Review of Cell and Developmental Biology (1997)
Loss of Retrograde Endocannabinoid Signaling and Reduced Adult Neurogenesis in Diacylglycerol Lipase Knock-out Mice
Ying Gao;Dmitry V. Vasilyev;Maria Beatriz Goncalves;Fiona V. Howell.
The Journal of Neuroscience (2010)
Morphoregulatory activities of NCAM and N-cadherin can be accounted for by G protein-dependent activation of L- and N-type neuronal Ca2+ channels
Patrick Doherty;Sandra V. Ashton;Stephen E. Moore;Frank S. Walsh.
CAM-FGF Receptor Interactions: A Model for Axonal Growth
Patrick Doherty;Frank S. Walsh.
Molecular and Cellular Neuroscience (1996)
Expression of a Dominant Negative FGF Receptor Inhibits Axonal Growth and FGF Receptor Phosphorylation Stimulated by CAMs
Jane L. Saffell;Emma J. Williams;Ivor J. Mason;Frank S. Walsh.
Unified nomenclature for the semaphorins/collapsins 
J. A. Bamberg;S. Baumgartner;H. Betz;J. Bolz.
Neurite outgrowth in response to transfected N-CAM changes during development and is modulated by polysialic acid.
Patrick Doherty;James Cohen;Frank S. Walsh.
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