part 3: Neurons and Electrochemical Signaling
resting membrane potential
-70mV
soduim-potassium pump
1. Moves Na+ and K+ ions across the cell membrane 2. Allow nerves to send electrical info. Allows muscles to contract. Allows for the absorption of food &urine
multiple sclerosis
A chronic disease of the central nervous system marked by damage to the myelin sheath. Plaques occur in the brain and spinal cord causing tremor, weakness, incoordination, paresthesia, and disturbances in vision and speech
myelin sheath
A layer of fatty tissue segmentally encasing the fibers of many neurons; enables vastly greater transmission speed of neural impulses as the impulse hops from one node to the next.
Glutamate
A major excitatory neurotransmitter; involved in memory
Dopamine
A neurotransmitter associated with movement, attention and learning and the brain's pleasure and reward system.
Norepinephrine
A neurotransmitter involved in arousal, as well as in learning and mood regulation
Serotonin
A neurotransmitter that affects hunger, sleep, arousal, and mood.
Acetylcholine (ACh)
A neurotransmitter that enables learning and memory and also triggers muscle contraction
GABA
An inhibitory neurotransmitter in the brain.
Dentrites
Branches that reach out from the cell body and receive signals from surrounding neurons
Nodes of Ranvier
Gaps in the myelin sheath to which voltage-gated sodium channels are confined.
axon hillock
The conical region of a neuron's axon where it joins the cell body; typically the region where nerve signals is generated.
synaptic cleft
The narrow gap that separates the presynaptic neuron from the postsynaptic cell.
nervous system
a collection of organs that are specialized for a common purpose, namely, the analysis of sensory information and the production of behavior.
presynaptic cell
a nerve cell that releases a transmitter substance into a synapse during transmission of an impulse
antonomic nervous system
a set of nerves that carries involuntary and automatic commands that control blood vessels, body organs, and glands
somatic nervous system
a set of nerves that conveys information between voluntary muscles and the central nervous system
sympathetic nervous system
a set of nerves that prepares the body for action in challenging and threatening situations
excitation messages
active, go
gets back to reseting potential
by using sodium potassium pump
motor neurons
carry signals from the spinal cord to the muscles to produce movement
Neurons
cells in the nervous system that communicate with each other to perform information processing tasks
glial cells
cells in the nervous system that support, nourish, and protect neurons
glial cells
cells in the nervous system that support, nourish, and protect neurons, allows some neurons to carry into more efficiently
absolute refraction period (peak)
charge on outside and inside are equal
Neurotransmitters
chemical messengers that cross the synaptic gaps between neurons
central nervous system (CNS)
composed of the brain and spinal cord, receives information from the external world, processes and coordinates this information and sends commands to the skeletal and muscular system for action
peripheral nervous system (PNS)
connects the central nervous system to the body's organs and muscles
2 general processes for movement of ions
delusion and electrostatic pressure
what happens when ions cross membrane
depolarization is occurring and potassium channels are opening
Nuerons communication is both:
electrical and chemical
2 kinds of messages neurotransmitters convey
excitation and inhibition
binding of molecules to specialized proteins can lead to...
excitation, leading to increase in likelihood for neurons to fire action potential; or inhibition, decrease likelihood
parasympathetic nervous system
helps the body return to a normal resting state
presynaptic state
high sodium and neg charged chlorines on outside, high potassium and protein inside
relative refractory period
hyper-polarization
call body (soma)
largest component of the neuron that coordinates the information processing tasks and keeps the cell alive
synaptic transmission process
molecules of neurotransmitters selectively bind to specialized proteins embedded in the dendrite
how action potential is propagated
moves like dominos or a wave, almost like it regenerates when moving from one axon region to the next
Endorphins
natural, opiate-like neurotransmitters linked to pain control and to pleasure
ions outside membrane well cell is at rest
negatively charged chlorine and sodium ions
Inerneurons
neurons within the brain and spinal cord that communicate internally and intervene between the sensory inputs and motor outputs
inhibition messages
not active, stop
Ions
positively and negatively charged atoms
ions inside membrane well cell is at rest
positively charged potassium and negatively charged proteins
postsynaptic state
potassium and sodium move outside the cell
refraction period
potassium leaving leads to decrease of potential, repolarization
Receptor
protein that detects a signal molecule and performs an action in response
sensory neurons
receives information from the external world and conveys this info to the brain via the spinal cord
Three types of neurons
sensory, motor, interneurons
what happens at stimulus threshhold
sodium channels open
action potential starter
sodium channels openning
two main major subdivides of PNS
somatic nervous system and the autonomic nervous system
2 major divides of autonomic nervous system
sympathetic and parasympathetic nervous system
Axon
the extension of a neuron, ending in branching terminal fibers, through which messages pass to other neurons or to muscles or glands
Synapes
the functional junction between two neurons at which point the impulse is transmitted.
synaptic transmission
the mechanisms that underlie the ability of a neurotransmitter to influence the electrical properties of the receiving cell
postsynaptic neuron
the neuron on the receiving end of the synapse
