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Coordinating Movement, etc.! Nerve Systems

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Coordinating Movement, etc.! Nerve Systems nucleus output input transmission Released from vesicles Electrical Transmission -- Chemical Connection. – PowerPoint PPT presentation

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Title: Coordinating Movement, etc.! Nerve Systems


1
Coordinating Movement, etc.! Nerve Systems
nucleus
output
input
transmission
Released from vesicles
Electrical Transmission -- Chemical Connection.
2
In peripheral nerves, the tissue is mostly axons,
tightly packed like the wires in a complex phone
cable!
3
Conduction of action potential along neuron
A bit slower than electrical wire, but does not
need heavy, rigid metal and, for typical organism
sizes, is fast enough!
4
Myelin Sheath Increases Rate of Transmission
Electrical current passes rapidly (150 vs 30 m/s)
down the sheathed axon segments
  • Multiple Sclerosis and Guillain-Barré Syndrome

5
Coordinating Movement, etc.! Nerve Systems
Regulation by ACH or NE.
6
Neurotransmitter Roles
Opposing Muscles
Glands
7
Neurotransmitter diffusion is fast enough
  • Because the synapse gap is about 0.001 mm

8
AcetylCholine
  • Stimulates muscle contraction in the
    neuromuscular junction.
  • Atropine blocks Ach receptionrelaxation of iris
  • Slows the pacemaker in the heart.

Adrenaline (nor-epinephrine)
  • Promotes nutritional release to blood
  • Speeds the pacemaker in the heart.
  • Higher blood pressure, more oxygenation
  • Fright, Flight, or Fight stimulant

9
Simple Nervous Systems
  • gt dendrite
  • O soma
  • ------- axon
  • gt synaptic terminal
  • S sensor
  • M muscle cell
  • gtO------------gt neuron
  • --gtgtOgtgtO--- interneuron
  • gtO------------gtM motor neuron
  • SgtO----------gt sensory neuron
  • Reflex Arc
  • SgtO----------gtgtOgtgtO------------M (one of each)
  • tendon spinal cord muscle

10
A neuron can have many synaptic terminals
  • These synaptic terminals are neuromuscular
    junctionshow can you tell?

11
The spinal cord has cell bodies surrounded by
dendrites and axons
  • Reflex arcs connect via interneurons here in the
    spinal cord!

12
Complex Nervous Systems
  • Cell bodies in ganglia in peripheral nerves
  • Cell bodies in spinal cord and brain
  • Much of Central Nerve System are interneurons
  • Connect to Sensors, Muscles, Glands, etc.
  • Connect to each other!

13
Mapping a Portion of the Brain
  • Here you can see where portions of the brain map
    out to body parts.
  • You might notice that the body has biases in
    terms of mapping various areas.
  • The head and face covers as much neural tissue as
    the rest of the body.

14
The Sensory Inputs
  • Taste sensors have receptors for molecules of
    interest to the organism.
  • Taste cells transduce receptor-molecule complex
    into action potential.
  • Action potential is transmitted to sensory neuron
    with soma in a nearby ganglion.
  • Sensory neuron may be connected to a reflex arc
    and/or the central nervous system.

15
The sensitive tongue of reptiles is for tasting
the air!
16
Chemotaxis is Signal Tranduction Too!
  • Bacterium movement haphazard without signal
  • Straight line movement in signal path
  • Haphazard movement when off-target
  • Restored straight line movement on path

17
The Largest Organ of the Body has Many Sensors!
  • Dendrites (nerve endings) for pain, and itch
  • Pressure sensors
  • Stretch receptors to hair shafts
  • Touch and pressure receptors
  • Temperature flow sensors can be confused!
  • Sensor density varies over the bodyface and
    hands are dense!

18
Arthropod legs have chemical, pressure, and other
sensors
19
Sound Waves
  • Sound travels as pressure waves
  • Wavelength (frequency) is pitch (shortfasthigh)
  • Amplitude (height) is intensity (decibels)
  • gt100 damaging

20
The Sound Transducer
  • Sound collected by outer ear
  • Pressure waves vibrate eardrum
  • Former jawbones amplify the vibrations
  • Tapping on Cochlea (inner ear) vibrates
    fluid-surrounded ciliated transduction cells
  • Action potential sent to auditory nerves
  • Auditory nerves connect to CNS
  • Perception of sound in CNS
  • Cultural appreciation based upon experience
  • Plants cannot do this!

21
The antennae of a moth are for chemical and sonic
stimuli
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