Chapter 2: The Nervous System

Beschreibung

Undergrad Intro to Behavioral Neuroscience (Exam 1) Karteikarten am Chapter 2: The Nervous System, erstellt von Taylee O'Brien am 02/02/2022.
Taylee O'Brien
Karteikarten von Taylee O'Brien, aktualisiert more than 1 year ago
Taylee O'Brien
Erstellt von Taylee O'Brien vor fast 3 Jahre
5
0

Zusammenfassung der Ressource

Frage Antworten
Neuron Basic building block of the nervous system
Who proposed the Neuron Doctrine? Santiago Ramon y Cajal and Charles Sherrington
The Neuron Doctrine States that cells of the brain are independent in structure, metabolism, and function. Information is transmitted from cell to cell via tiny gaps (synapses).
Dendrites Receptive surfaces of the neuron
Cell body (soma) The region of a neuron that contains the nucleus
Axon A single extension from a neuron that transmits action potentials from the cell body to other neurons
Amount of neurons in the human brain 80-90 billion
Basic function of a neuron Process, integrate, and communicate information
4 zones of a neuron 1) Input 2) Integration 3) Conduction 4) Output
Functions of the 4 zones of a neuron 1) Input: receive information 2) Integration: process information 3) Conduction: transmit information through the neuron 4) Output: send info to another cell
Features of the 4 zones of a neuron 1) Input: Cell body (soma) and dendrites 2) Integration: axon hillock 3) Conduction: axon, axon collaterals 4) Output: axon terminals
Axon terminal The end of an axon or axon collateral,which forms a synapse on a neuron or another target cell
Axon collateral A branch of an axon from a single neuron
Types of neurons (structure) Multipolar: multiple dendrites, single axon Bipolar: single dendrite, single axon Unipolar: dendrites connected by axon
Types of neurons (function) Motor: send motor commands from brain to mucles, long axons Sensory: send signals from senses to brain Interneurons: connected only to other neurons, brain to brain
Most common type of neuron Multipolar, interneurons
Synapse tiny gap between neurons where information is passed from one to the other, inter-neuronal communication
Parts of a synapse Presynaptic membrane Synaptic cleft Postsynaptic membrane
Presynaptic membrane sends information, releases neurotransmitter
Synaptic cleft the space between the presynaptic and postsynaptic membranes
Postsynaptic membrane Receives information, responds to neurotransmitter
Is communication between neurons chemical or electrical? Chemical
How do neurons connect? Arborized dendritic spines via synaptic interfaces
Neurotransmitter the chemical released from the presynaptic axon terminal that serves as the basis of communication between neurons
Where are neurotransmitters stored? Synaptic vesicles in the presynaptic terminal
How are neurotransmitters released? electrical activity in the presynaptic axon leads to a fusing of the synaptic vesicles with the presynaptic membrane
Receptor a specialized protein molecule in the postsynaptic membrane that reacts to the neurotransmitter
What happens to the neurotransmitter after it binds with the postsynaptic membrane? It dissociates
Neural plasticity the formation of new neural circuits and adaption of existing circuits in response to experience or the environment
Axonal transport The transportation of materials from the neuronal cell body to distant regions in the dendrites and axons, and from the axon terminals back to the cell body
What are the two ways information travels via axonal transport? 1) electrically outside the axon 2) inside the axon via transport vesicles
Glial cells Nonneuronal brain cells that provide structural, nutritional, and other types of support to the brain
4 types of glial cells 1) Astrocyte (17%) 2) Microglia (~7%) 3) Oligodendrocytes (~75) 4) Schwann cells
Astrocytes Star-shaped cell that weaves among neurons. Regulates blood flow when inactive, involved in formation of new synapses and pruning of old synapses, maintain extracellular ion balance
Microglia Very small cells that contain brain injury by removing debris from damaged or dead cells by metastasized it into energy
Oligodendrocytes and Schwann cells Provide myelination. Oligodendrocytes: CNS. Schwann cells: PNS
Myelin fatty, insulating substance that surrounds axons and is interrupted by Nodes of Ranvier
Nodes of Ranvier a gap between successive segments of the myelin sheath where the axon membrane is exposed
Edema Swelling of glial cells (mostly astrocytes) after brain injury that damages neurons
Zusammenfassung anzeigen Zusammenfassung ausblenden

ähnlicher Inhalt

6.5 Neurons and Synapses
Steve Harton
Cell Biology Chapter 2
Sheridyn11
The Energy and Chemistry of Life
jensha21285
Health Assessment Exam 1
Harry Westbrooks
HBSE 1 Exam 1
Alissa West
Cell Biology Chapter 3
Sheridyn11
SD329 Block 2
Mikki M
Exam 1 (POSC 215 - Comparative Politics)
Renee Park
Responding to Change
Caitlin O'Neill
Labeling a Neuron
Emily Belanger
Matching Section Study Guide
Donald Carlson