Leslie P. Tolbert

What is he best known for?

The fields of study he is best known for:

• Neuron
• Biochemistry
• Neurotransmitter

His primary areas of investigation include Neuroscience, Antennal lobe, Nissl body, Cochlear nerve and Glomerulus. His study in the fields of Synapse and Neuron under the domain of Neuroscience overlaps with other disciplines such as Cell type. The study incorporates disciplines such as Endoplasmic reticulum and Electrophysiology in addition to Synapse.

His work in Antennal lobe is not limited to one particular discipline; it also encompasses Neuropil. Leslie P. Tolbert combines subjects such as Olfaction and Manduca sexta with his study of Glomerulus. His study in Olfactory system is interdisciplinary in nature, drawing from both Axon and Neuroglia.

His most cited work include:

• Organization and Synaptic Ultrastructure of Glomeruli in the Antennal Lobes of the Moth Manduca sexta: A Study Using Thin Sections and Freeze-Fracture (180 citations)
• The neuronal architecture of the anteroventral cochlear nucleus of the cat in the region of the cochlear nerve root: Horseradish peroxidase labelling of identified cell types (177 citations)
• Synaptic organization and development of the antennal lobe in insects. (173 citations)

What are the main themes of his work throughout his whole career to date?

Leslie P. Tolbert mainly investigates Neuroscience, Antennal lobe, Olfactory system, Neuropil and Olfactory receptor. His research brings together the fields of Manduca sexta and Neuroscience. The Antennal lobe study combines topics in areas such as Synapse, Neuroglia, Anatomy and Neuron.

The various areas that he examines in his Olfactory system study include Olfactory bulb and Afferent. His research in Neuropil intersects with topics in Electron microscope, Biophysics, Mitotic Figure and Lobes of the brain. His Olfactory receptor study combines topics in areas such as Olfactory nerve, Calcium, Channel blocker and Cell biology.

He most often published in these fields:

• Neuroscience (84.51%)
• Antennal lobe (56.34%)
• Olfactory system (42.25%)

What were the highlights of his more recent work (between 2007-2016)?

• Neuroscience (84.51%)
• Olfactory system (42.25%)
• Astrocyte (4.23%)

In recent papers he was focusing on the following fields of study:

The scientist’s investigation covers issues in Neuroscience, Olfactory system, Astrocyte, Neuropil and Olfactory receptor. Leslie P. Tolbert does research in Neuroscience, focusing on Synapse specifically. His Olfactory system study combines topics from a wide range of disciplines, such as Axon and Neuroglia.

In Axon, he works on issues like Antennal lobe, which are connected to Anatomy, Neuron and Olfactory receptor neuron. He interconnects Glomerulus, Olfactory bulb, Olfactory ensheathing glia and Olfactory Lobe in the investigation of issues within Neuropil. His Olfactory receptor research incorporates elements of Calcium, Olfactory nerve, Premovement neuronal activity, Manduca sexta and Tetrodotoxin.

Between 2007 and 2016, his most popular works were:

• Astrocytic glutamate transport regulates a Drosophila CNS synapse that lacks astrocyte ensheathment (27 citations)
• Glial investment of the adult and developing antennal lobe of Drosophila. (19 citations)
• Activation of Glial FGFRs Is Essential in Glial Migration, Proliferation, and Survival and in Glia-Neuron Signaling during Olfactory System Development (15 citations)

In his most recent research, the most cited papers focused on:

• Neuron
• Biochemistry
• Neurotransmitter

Leslie P. Tolbert mostly deals with Neuroscience, Antennal lobe, Olfactory system, Axon and Glutamate receptor. Neuroscience is represented through his Olfactory bulb, Glomerulus, Neuropil, Olfactory ensheathing glia and Olfactory Lobe research. His research integrates issues of Neuroglia, Olfactory receptor neuron, Neuron, Anatomy and Fibroblast growth factor receptor in his study of Antennal lobe.

His studies deal with areas such as Fibroblast growth factor and Cell biology as well as Olfactory system. His Glutamate receptor research includes themes of Synapse, Inhibitory postsynaptic potential and Astrocyte. His Synapse study incorporates themes from Neurotransmission and Nervous system.

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