HUMAN BIOLOGY

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the nerVOus system 247

What do nerves do?


  • Nerves, which contain neuron axons, carry signals between
    the brain and spinal cord with the rest of the body.

  • Reflexes are the simplest nerve pathways.

  • Interneurons in the brain and spinal cord are organized in
    information-processing blocks that interact in circuits.


taKe-hoMe Message

Babies exhibit several reflexes that disappear as the ner-
vous system matures. One example is the “rooting” reflex
of an infant that turns its head toward something that
strokes its mouth or cheek—a response that helps guide the
baby’s mouth toward a breast for suckling.


in the brain and spinal cord,
neurons interact in circuits


In your nervous system, sensory nerves relay information
into the spinal cord, where they form chemical synapses
with interneurons. The spinal cord and brain contain only
interneurons, which integrate the signals. Many interneu-
rons synapse with motor neurons, which carry signals
away from the spinal cord and brain.
In the brain and spinal cord, blocks of hundreds or
thousands of interneurons are parts of interacting circuits.
Each block receives signals—some that excite, others that
inhibit—and then integrates the messages and responds


with new ones. For example, in some regions of the brain
the circuits diverge—the processes of neurons in one block
fan out to form connections with other blocks. Elsewhere
signals from many neurons are funneled to just a few.
And in still other brain regions, neurons synapse back on
themselves, repeating signals among themselves. These
“reverber ating” circuits include the ones that make your
eye muscles twitch as you sleep.

Figure 13.9 Animated! Reflexes are simple but important neural pathways. This diagram shows how nerves are organized in a
reflex that operates when skeletal muscle stretches. (© Cengage Learning)


In the spinal cord, axon
endings of the sensory neuron
release a neurotransmitter that
diffuses across a synapse and
stimulates a motor neuron.

Stretching stimulates sensory
receptor endings in this muscle
spindle. Action potentials propagate
toward the spinal cord.

The stimulation is strong
enough to generate action
potentials that self-propagate
along the motor neuron’s axon.

Stimulation makes the stretched
muscle contract. Ongoing stimulation
and contractions hold the bowl steady.

Fruit being loaded into a bowl
puts weight on an arm muscle and
stretches it. Will the bowl drop? No,
because muscle spindles in the
muscle’s sheath also are stretched.

Axon endings of the motor
neuron synapse with muscle
cells in the stretched muscle.

ACh released from the motor
neuron’s axon endings stimulates
muscle cells.

RESPONSE


Biceps contracts.

Biceps stretches.

muscle
spindle

neuromuscular
junction

STIMULUS


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