the nerVOus system 241
What kinds of cells carry nervous system
signals?
- Sensory neurons, interneurons, and motor neurons all carry
nervous system signals, or nerve impulses. - In a resting neuron, differences in the concentrations of Na^1
and K^1 across the plasma membrane produce a difference in
electrical charge across the plasma membrane. - This charge difference is called the resting membrane potential.
It sets the stage for a neuron to do its physiological work of
firing a nerve impulse.
taKe-hoMe Message
is more negative than than the outer side of the membrane.
This difference is called resting membrane potential.
The term means that the charge difference has the potential
to do physiological work in the body. That “work” is the
launching of a nerve impulse.
Various kinds of signals occur in the nervous system,
but not all of them spark nerve impulses. Only a signal
that is strong enough when it reaches a resting neuron’s
input zone may spread to a trigger zone. When a strong
enough signal does arrive, however, it can cause the volt-
age difference across the plasma
membrane to reverse, just for an
instant. In the following section,
we see how these reversals produce
nervous system signals.
resting membrane potential
Difference in the electrical
charge on either side of a
neuron’s plasma membrane.
Figure 13.3 Animated! ions produce an electrical gradient across a neuron’s plasma membrane.
a Gradients of sodium (Na^1 ) and potassium (K^1 ) ions across a neuron’s plasma membrane. B How ions
cross the plasma membrane of a neuron. They are selectively allowed to cross at protein channels and
pumps that span the membrane. (© Cengage Learning)
A
inside cell
outside cell
tissue fluid
cytoplasm
3 Na+ 2 K+
aTP ADP + Pi
B
Transport proteins actively
transport three Na^1 out of
a neuron for every two K^1
they pump in.
Passive transporters allow
K^1 ions to move across
the plasma membrane,
down their concentration
gradient.
Voltage-gated channels for
Na^1 or K^1 are closed in a
neuron at rest (left), but open
when it is excited (right).
Figure 13.2 Animated! a motor neuron has four main function
zones. (© Cengage Learning)
axon terminals
cell body
dendrite
axon
Conducting zone
1 Input zone
3
Trigger
zone
Output zone
2
4
1 Dendrites and the cell body are the neuron’s input zone. They
receive chemical signals from another neuron and convert them to
the electrical signals called nerve impulses.
2 Nerve impulses spread to a trigger zone at the start of an axon.
3 If the nerve impulses are strong enough, they are conducted
along the axon to its terminal endings.
4 Axon terminals are a signal output zone. They release chemical
signals that influence another cell. In the case of a motor neuron,
signals affect a muscle cell or gland cell.
membrane. Electrical charges may be measured in milli-
volts, and for many neurons, the steady charge difference
across the plasma membrane is about 2 70 millivolts. The
minus indicates that the cytoplasm side of the membrane
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