Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Ch. 2 - WordPress.com
Document related concepts
Subventricular zone wikipedia , lookup
Endocannabinoid system wikipedia , lookup
Types of artificial neural networks wikipedia , lookup
Neural oscillation wikipedia , lookup
Central pattern generator wikipedia , lookup
Action potential wikipedia , lookup
Biochemistry of Alzheimer's disease wikipedia , lookup
Metastability in the brain wikipedia , lookup
Caridoid escape reaction wikipedia , lookup
Neuroregeneration wikipedia , lookup
Apical dendrite wikipedia , lookup
Activity-dependent plasticity wikipedia , lookup
Clinical neurochemistry wikipedia , lookup
Multielectrode array wikipedia , lookup
Premovement neuronal activity wikipedia , lookup
Neural coding wikipedia , lookup
Neuromuscular junction wikipedia , lookup
Mirror neuron wikipedia , lookup
Electrophysiology wikipedia , lookup
Holonomic brain theory wikipedia , lookup
End-plate potential wikipedia , lookup
Circumventricular organs wikipedia , lookup
Node of Ranvier wikipedia , lookup
Development of the nervous system wikipedia , lookup
Optogenetics wikipedia , lookup
Pre-Bötzinger complex wikipedia , lookup
Feature detection (nervous system) wikipedia , lookup
Neurotransmitter wikipedia , lookup
Molecular neuroscience wikipedia , lookup
Axon guidance wikipedia , lookup
Single-unit recording wikipedia , lookup
Nonsynaptic plasticity wikipedia , lookup
Neuroanatomy wikipedia , lookup
Neuropsychopharmacology wikipedia , lookup
Stimulus (physiology) wikipedia , lookup
Chemical synapse wikipedia , lookup
Channelrhodopsin wikipedia , lookup
Biological neuron model wikipedia , lookup
Synaptogenesis wikipedia , lookup
Synaptic gating wikipedia , lookup
Transcript
Introduction “Neurophilosophy” Brain is the origin of mental abilities Glia and Neurons Glia: Insulates, supports, and nourishes neurons Neurons Process information Sense environmental changes Communicate changes to other neurons Command body response The Neuron Doctrine Histology Study of tissue structure The Nissl Stain Facilitates the study of cytoarchitecture in the CNS The Neuron Doctrine Golgi-stain (Developed by Camillo Golgi) shows two parts of neurons: Soma and perikaryon Neurites: Axons and dendrites The Neuron Doctrine Cajal’s Contribution Neural circuitry Neurons communicate by contact, not continuity Neuron doctrine Neurons adhere to cell theory Based in Golgi stain The Prototypical Neuron The Nucleus Gene expression Transcription RNA processing The Prototypical Neuron The Soma Cytosol: Watery fluid inside the cell Organelles: Membrane-enclosed structures within the soma Cytoplasm: Contents within a cell membrane (e.g., organelles, excluding the nucleus) The Prototypical Neuron The Soma Major site for protein synthesis Rough endoplasmic reticulum The Prototypical Neuron The Soma Protein synthesis also on free ribosomes; polyribosomes The Prototypical Neuron The Soma Smooth ER and Golgi Apparatus Sites for preparing/sorting proteins for delivery to different cell regions (trafficking) and regulating substances The Prototypical Neuron The Soma Mitochondrion Site of cellular respiration (inhale and exhale) Krebs cycle ATP- cell’s energy source The Prototypical Neuron The Neuronal Membrane Barrier that encloses cytoplasm ~5 nm thick Protein concentration in membrane varies Structure of discrete membrane regions influences neuronal function The Prototypical Neuron The Cytoskeleton Not static Internal scaffolding of neuronal membrane Three “bones” Microtubules Microfilaments Neurofilaments The Prototypical Neuron The Axon Axon hillock (beginning) Axon proper (middle) Axon terminal (end) Differences soma between axon and ER does not extend into axon Protein composition: Unique The Prototypical Neuron The Axon The Axon Terminal Differences between the cytoplasm of axon terminal and axon No microtubules in terminal Presence of synaptic vesicles Abundance of membrane proteins Large number of mitochondria The Prototypical Neuron The Axon Synapse Synaptic transmission Electrical-to-chemical-to-electrical transformation Synaptic transmission dysfunction Mental disorders The Prototypical Neuron The Axon Axoplasmic transport Anterograde (soma to terminal) vs. Retrograde (terminal to soma) transport The Prototypical Neuron Dendrites “Antennae” of neurons Dendritic tree Synapse - receptors Dendritic spines Postsynaptic (receives signals from axon terminal) Classifying Neurons Classification Based on the Number of Neurites Single neurite Unipolar Two or more neurites Bipolar- two Multipolar- more than two Classifying Neurons Classification Based on Dendritic and Somatic Morphologies Stellate cells (star-shaped) and pyramidal cells (pyramidshaped) Spiny or aspinous Classifying Neurons Further Classification By connections within the CNS Primary sensory neurons, motor neurons, interneurons Based on axonal length Golgi Type I Golgi Type II Based on neurotransmitter type e.g., – Cholinergic = Acetycholine at synapses Glia Function of Glia Supports neuronal functions Astrocytes Most numerous glia in the brain Fill spaces between neurons Influence neurite growth Regulate chemical content of extracellular space Glia Myelinating Glia Oligodendroglia (in CNS) Schwann cells (in PNS) Insulate axons Glia Myelinating (Cont’d) Glia Oligodendroglial cells Node of Ranvier Region where the axonal membrane is exposed Glia Other Non-Neuronal Cells Microglia as phagocytes (immune) Structure Correlates with Function Structural characteristics of a neuron tell us about its function NEURONS Soma Axons Dendrites Synapse e.g., Dense Nissl stain = protein; suggests specialization Elaborate structure of dendritic tree = receiver
