Due Today 2 1 3 MapABrain Swim Cap
Due Today: 2. 1. 3 Map-A-Brain • Swim Cap • Completed Chart • Conclusion Questions • Rubric ____________________________ BRAIN REVIEW WORKSHEET BRAIN QUIZ NEXT CLASS PERIOD! The Neuron Notes PPT 2. 2. 1 : The Neuron • Part I Basic Neuron Design (work in Pairs) • Follow Directions agmiller@avon-schools. org Printer: al-248 -q 1 • Part II Relaying The Message (individually-may hand draw, MS Word, or Inspiration)
Central nervous system (CNS) Brain and spinal cord - a long bundle of neurons that carries messages to and from the body to the brain that is responsible for very fast, lifesaving reflexes. Integrating center and command
Peripheral nervous system (PNS) Outside the CNS Nerves extending from brain and spinal cord Cranial nerves Spinal nerves Link all regions of the body to the CNS
Sensory signals picked up by sensory receptors Carried by afferent nerve fibers of PNS to the CNS – nerves that transmit info to the CNS Motor signals are carried away from the CNS Carried by efferent nerve fibers of PNS to effectors – nerves that transmit info from CNS to the PNS (organs)
Cells are densely packed and intertwined Two main cell types Neurons – transmit electrical signals Support cells - neuroglial cells Surround and wrap neurons
The human body contains billions of neurons Basic structural unit of the nervous system Specialized cells conduct electrical impulses along the plasma membrane Longevity – can live and function for a lifetime Do not divide – fetal neurons lose their ability to undergo mitosis – do NOT have centrioles High metabolic rate – require abundant oxygen and glucose
� Contains the cell’s nucleus �round, centrally located structure �contains DNA �controls protein manufacturing �directs metabolism �no role in neural signaling �Many Mitochondria �Nissl Bodies- groups of ribosomes – make protien
Information collectors Receive inputs from neighboring neurons Inputs may number in thousands If enough inputs, the cell’s AXON may generate an output Surface is rough Branch near cell body
Takes information away from cell body Smooth surface One axon per cell, 2 distinct parts tubelike structure branches at end that connect to dendrites of other cells Axon Terminal Releases information to the next neuron/dendrite
White fatty casing on axon Acts as an electrical insulator Made by Schwann Cells – in the PNS When present, increases the speed of neural signals down the axon
Cells that make insulates the axons in the CNS – specifically the brain. One single oligodendroglia can insulate up to 50 axons Difference – one Schwann cell is needed for one axon in the PNS
� In between the areas of myelin sheath, Nodes of Ranvier or bare patches exist. � The nerve impulse will jump form node to node greatly increasing the speed of nerve transmission. � can produce transmission speeds of up to 200 meters per second and explains the speed at which we can react to potentially harmful stimuli.
Types of Neurons Sensory Motor Interneurons
Sensory neuron Interneuron Motor Neuron Length of Fibers Long dendrites and short axon Short dendrites and short or long axon Short dendrites and long axons Location Cell body and dendrite are outside of the spinal cord; the cell body is located in a dorsal root ganglion Dendrites and the cell body Entirely within the spinal cord are located in the spinal cord; or CNS the axon is outside of the spinal cord Function Interconnect the sensory Conduct impulse to the spinal neuron with appropriate cord motor neuron Conduct impulse to an effector (muscle or gland)
Efferent Neuron – Moving toward a central organ or point Relays messages from the brain or spinal cord to the muscles and organs
Afferent Neuron – Moving away from a central organ or point Relays messages from receptors to the brain or spinal cord
Relays message from sensory neuron to motor neuron Make up the brain and spinal cord
Based on what is coming out of the cell body (also known as the soma)
Has two processes extending from the cell body (example: retinal cells, olfactory epithelium cells. Rare
Have but one process from the cell body. However, that single, very short, process splits into longer processes (a dendrite plus an axon). Unipolar neurons are sensory neurons conducting impulses into the central nervous system.
Are so-named because they have many (multi -) processes that extend from the cell body: lots of dendrites plus a single axon. Functionally, these neurons are either motor (conducting impulses that will cause activity such as the contraction of muscles) or association (conducting impulses and permitting 'communication' between neurons within the central nervous system).
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