Neuron Structure and Function

... Synaptic cleft between the motor neuron and the muscle is very narrow Release the neurotransmitter acetylcholine Effect on the muscle is always excitatory ...

ANATOMICAL ORGANIZATION of the NERVOUS SYSTEM

... That part of a neuron that encloses the nucleus and other organelles necessary to maintain and repair the neuron. ...

Trigeminal Ganglion Cell

... -Asymmetric (excitatory, glutamate or aspartate) -or Symmetric (inhibitory, GABA) ...

Tracing Brain Pathways: Mapping the Neurons

... utilization of a high powered microscope which can image fluorescent light, respectively. 2.  In the majority of cases where rodents were injected with PRV, the targeted neurons expressed RFP, while very few cases exhibited neurons expressing GFP. This implies that the PRV 614 strain (red) is more e ...

We have seen how the Nervous System plays an important role in

... This needs A LOT of help. Good diagrams are a must for this topic!!! I’m not sure if this is too specific and needs to be more general, or if it is too general and needs to be more specific???????? We have seen how the nervous system plays an important role in reaction time, stability and balance, h ...

Autonomic nervous system

... • Receptors for _______________ come in 2 forms: __________ = excitatory (Na+ channels) __________ = excitatory/inhibitory (G proteins) • ______________________ comes from neurons and/or adrenal medulla • Effects… near sympathetic usually excitatory otherwise variable responses (see table 16.3) ...

Slide 1

... • Receptors for _______________ come in 2 forms: __________ = excitatory (Na+ channels) __________ = excitatory/inhibitory (G proteins) • ______________________ comes from neurons and/or adrenal medulla • Effects… near sympathetic usually excitatory otherwise variable responses (see table 16.3) ...

What structures comprise the sympathetic division?

... • Receptors for _______________ come in 2 forms: __________ = excitatory (Na+ channels) __________ = excitatory/inhibitory (G proteins) • ______________________ comes from neurons and/or adrenal medulla • Effects… near sympathetic usually excitatory otherwise variable responses (see table 16.3) ...

Document

... cell membrane & a high concentration of K ions is on the inside *in a resting cell, more positive ions leave the cell than enter it, so the inside of the cell membrane develops a negative charge with respect to the outside; this takes ATP to occur *difference in electrical charge between 2 points is ...

Membrane potentials

...  Changes in membrane permeability due to opening and closing of voltage-gated channels  Resultant movement of ions. ...

doc - Shoreline Community College

... major functions associated with each? (Four structures were mentioned and these four structures, along with a some additional brain structures, are discussed under the heading “older brain structures” in the text) 40. What are five different types of neuroimaging techniques? For each one, specify th ...

Document

... • The various dimensions and divisions of the CNS are defined in the neural tube • Development of the neural tube cavity becomes the ventricles of the brain and canal of the cord • Development of the neural tube wall provides an early organization of the CNS ...

Template for designing a research poster

... can also model the dynamics of neural spiking. Here, the standard Hodgkin-Huxley model (a) is compared with a memristive model (b). The memristors replace the sodium and potassium conductances, GNa and GK, which are voltage and time-dependent. [6] ...

Ascending Projections

... • Autonomic responses and visceral sensations accompany most emotion. The earliest theory hypothesized that emotion is the result of basic sensations: – Aristotle (350 BCE) - pain is an emotion – James-Lange (1884-85) – emotions result from physical changes - “we feel sorry because we cry, ... afrai ...

Step Up To: Psychology

... • B) Enriched-environment rats showed more stress and aggression. • C) Enriched-environment rats were able to ...

Biological Psychology

...  Define biopsychology  Describe the different disciplines that contribute to the field of neuroscience  Key Terms: o Neurons o Neuroanatomy o Neuropathology o Neuropharmacology o Neuropsychology o Cognitive Neuroscience Chapter 3: ...

36.1 The Nervous System Neurons: Basic units of

... pumped out for every 2 potassium ions pumped in resulting in a negative charge Change in this charge moves the impulse down axon. ...

ANPS 019 Black 11-30

... -synapses on motor neurons in cranial nerve nuclei: CN III & IV exit at midbrain CN V, VI & VII exit at pons CN IX, X, XI & XII exit at medulla Since upper motor neurons innervate the cranial nerve nuclei bilaterally, the other side provides backup innervation; therefore, damage doesn’t result in cl ...

CHAPTER 2 –OUTLINE I. Introduction: Neuroscience and Behavior

... 3. The axon is a single, elongated tube that extends from the cell body and carries information from the neuron to other neurons, glands, and muscles. Axons vary in length from a few thousandths of an inch to about four feet. a. Many axons are surrounded by a myelin sheath, a white, fatty covering t ...

Ch. 48 - Ltcconline.net

... 7. Quad muscle responds by contracting. At same time, another motor neuron responds to signals from interneuron and inhibits hamstrings to make them relax B. Neurons are the functional units of nervous systems 1. Neurons vary widely in shape but share some common characteristics 2. Motor neuron, fro ...

Hormone Levels and EEG (Ashanti)

... EEG is useful because the time resolution is very high. As other methods for researching brain activity have time resolution between seconds and minutes, the EEG has a resolution down to sub-millisecond. It is also good because other methods for exploring functions in the brain rely on blood flow or ...

Lecture 5: Distributed Representations

... • Representations can overlap and still be decoded if we allow integer activities of more than 1. ...

MODEL OF WHOLE NEURON

... passive channels, and an active component for the node of Ranvier. The structure in Figure 11.33 can be modified for any number of compartments as appropriate. The soma can be modeled as an active or passive compartment depending on the type of neuron. ...

notes as

... • Representations can overlap and still be decoded if we allow integer activities of more than 1. ...

Final Exam Practice Problems

... Note: Attempt to do these problems without looking at the book/lectures to make sure you really know it (you’ll probably want to attempt thema when you’ve done most of your studying already). Answers will be posted late next week. 1. A ferret embryo is injected with 3H-thymidine at age E29, the age ...

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Synaptic gating

Synaptic gating is the ability of neural circuits to gate inputs by either suppressing or facilitating specific synaptic activity. Selective inhibition of certain synapses has been studied thoroughly (see Gate theory of pain), and recent studies have supported the existence of permissively gated synaptic transmission. In general, synaptic gating involves a mechanism of central control over neuronal output. It includes a sort of gatekeeper neuron, which has the ability to influence transmission of information to selected targets independently of the parts of the synapse upon which it exerts its action (see also neuromodulation).Bistable neurons have the ability to oscillate between a hyperpolarized (down state) and a depolarized (up state) resting membrane potential without firing an action potential. These neurons can thus be referred to as up/down neurons. According to one model, this ability is linked to the presence of NMDA and AMPA glutamate receptors. External stimulation of the NMDA receptors is responsible for moving the neuron from the down state to the up state, while the stimulation of AMPA receptors allows the neuron to reach and surpass the threshold potential. Neurons that have this bistable ability have the potential to be gated because outside gatekeeper neurons can modulate the membrane potential of the gated neuron by selectively shifting them from the up state to the down state. Such mechanisms have been observed in the nucleus accumbens, with gatekeepers originating in the cortex, thalamus and basal ganglia.

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Synaptic gating