Neural Communication - Lecture 2

Beschreibung

Degree Psychology (Psychology of the Individual) Karteikarten am Neural Communication - Lecture 2, erstellt von Georgina Burchell am 19/04/2016.
Georgina Burchell
Karteikarten von Georgina Burchell, aktualisiert more than 1 year ago
Georgina Burchell
Erstellt von Georgina Burchell vor mehr als 8 Jahre
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Zusammenfassung der Ressource

Frage Antworten
Are Anions positively or negatively charged? Negatively charged
Name three things that make a neuron special? 1. Specialized membrane 2. Axons and dendrites 3. Communicate with eachother
What mV is resting potential? -60mV compared to the outside of the cell
What are ion channels? Proteins that span the membrane and allow ions to pass
The neuron shows selective permeability to... K+
What two forces drive ion movement? Elecrostatic potential Diffusion
Why is the inside of the cell more negative? Negatively charged proteins on the inside of the cell that cannot get past the membrane
How does the sodium potassium pump work? When is it activated? 3 Na+ out 2 K+ in Uses a lot of ATP (energy) Activated during an action potential
Explain why some K+ ions move in and some move out during resting potential. K+ ions move to negative interior of the the cell due to electrostatic pressure. k+ ions build up inside and they move out via diffusion.
When is equilibrium reached? When the movement of K+ is balanced in and out
What is hyperpolarization? What does this do to the membrane potential? Interior becomes even more negative. It increases the membrane potential
What is depolarization? What does it do to the membrane potential? Decrease in membrane potential, interior becomes less negative
Expain two properties of a hyperpolarizing stimulus Graded response. (Big stimulus=Big response) As the potential spreads across the membrane, it diminishes).
What is threshold potential? What does an action potential do to membrane potential? An action potential occurs when a depolarizing stimulus reaches the threshold potential (-40Mv) Membrane potential reverses and the inside of the cell becomes positive
Where do action potentials originate? Axon hillock
Name 3 properties of an action potential All-or-nothing property Depolarizing stimulus Action potentials increase in frequency with increased stimulus strength (summation).
What ion produces an action potential? What is the Na+ equilibrium potential (in mV)? Action potentials are produced by the movement of Na+ ions into the cell through channels in membrane. Membrane potential reaches the Na+ equilibrium potential of +40 mV.
How is resting potential restored? Voltage gated K+ channels open to restore the resting potential and the sodium potassium pump restores the balance of Na+ and K+
Absolute refractory phase time when no action potentials are produced
Relative refractory phase time when only strong stimulation can produce an action potential.
What does 'regenerated' refer to? Action potentials are regenerated along the axon—each adjacent section is depolarized and a new action potential occurs.
Why can action potentials only go in one direction? Refractory period
What do nodes of ranvier do? Allow sultatory conduction to occur this is when potential travels inside the axon and jumps from node to node
What is the myelin sheath made of? Schwann cells (PNS) Oligodendrocytes (CNS)
What is conduction velocity The speed of propagation of action potentials—varies with diameter
What is a excitatory postsynaptic potential (EPSP) A small local depolarization, pushing the cell closer to threshold. Caused by opening of Na+ channels on the post-synaptic membrane
Inhibitory postsynaptic potential (IPSP) A small local hyperpolarization, pushing the cell further away from threshold Caused by chloride ions (Cl-) entering the post-synaptic membrane
How do neurons know if they should fire? Neurons perform information processing to integrate synaptic inputs. A postsynaptic neuron will fire an action potential if a depolarization that exceeds threshold (-40mV) reaches its axon hillock
Two things that will effect whether an action potential occurs Spatial Summation -Location of the synaptic inputs is significant Temporal Summation -Lots of action potentials in quick succession
What did Otto Loewi discover in 1936? Acetylcholine
How does an action potential chemically pass over a synapse
How does the neurotransmitter leave the synaptic cleft? Transmitter is inactivated (by enzymatic degradation) or removed (by transporters for reuptake and recycling).
What are ligands? Ligands fit receptors exactly and activate or block them
Two types of ligands Endogenous ligands—neurotransmitters and hormones Exogenous ligands—drugs and toxins from outside the body
What are agonists? Molecules that act like the transmitter at a receptor are called agonists of the receptor
What are antagonists? Molecules that interfere with or prevent the action of a transmitter at its receptor
Describe a ionotropic receptor also known as ligand-gated ion channel (fast)
Describe a metabotropic receptor Activate G proteins G proteins, sometimes open channels or may activate another chemical to affect ion channels (slow)
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