1. Neuromuscular Junction

2. Figure 9.10 Synaptic cleft vesicle 1 ACh SR tubules (cut) SR 2 6 3
ADP Pi
Net entry of Na+ Initiates
an action potential which
is propagated along the
sarcolemma and down
the T tubules.
T tubule
Sarcolemma
SR tubules (cut)
Synaptic
cleft
vesicle
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma.
Action potential in
T tubule activates
voltage-sensitive receptors,
which in turn trigger Ca2+
release from terminal
cisternae of SR
into cytosol.
Calcium ions bind to troponin;
troponin changes shape, removing
the blocking action of tropomyosin;
actin active sites exposed.
Contraction; myosin heads alternately attach to
actin and detach, pulling the actin filaments toward
the center of the sarcomere; release of energy by
ATP hydrolysis powers the cycling process.
Removal of Ca2+ by active transport
into the SR after the action
potential ends. SR
Tropomyosin blockage restored,
blocking myosin binding sites on
actin; contraction ends and
muscle fiber relaxes.
Ca2+ 1 2 3 4 5 6
Figure 9.10

3. Figure 9.10 Synaptic cleft vesicle ACh
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma.
Figure 9.10

4. Figure 9.10 Synaptic cleft vesicle 1 ACh
Net entry of Na+ Initiates
an action potential which
is propagated along the
sarcolemma and down
the T tubules.
T tubule
Sarcolemma
Synaptic
cleft
vesicle
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma. 1
Figure 9.10

5. Figure 9.10 Synaptic cleft vesicle 1 ACh SR tubules (cut) SR Ca2+ 2
Net entry of Na+ Initiates
an action potential which
is propagated along the
sarcolemma and down
the T tubules.
T tubule
Sarcolemma
SR tubules (cut)
Synaptic
cleft
vesicle
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma.
Action potential in
T tubule activates
voltage-sensitive receptors,
which in turn trigger Ca2+
release from terminal
cisternae of SR
into cytosol. SR
Ca2+ 1 2
Figure 9.10

6. Figure 9.10 Synaptic cleft vesicle 1 ACh SR tubules (cut) SR 2 3 Ca2+
Net entry of Na+ Initiates
an action potential which
is propagated along the
sarcolemma and down
the T tubules.
T tubule
Sarcolemma
SR tubules (cut)
Synaptic
cleft
vesicle
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma.
Action potential in
T tubule activates
voltage-sensitive receptors,
which in turn trigger Ca2+
release from terminal
cisternae of SR
into cytosol.
Calcium ions bind to troponin;
troponin changes shape, removing
the blocking action of tropomyosin;
actin active sites exposed. SR
Ca2+ 1 2 3
Figure 9.10

7. Figure 9.10 Synaptic cleft vesicle 1 ACh SR tubules (cut) SR 2 3 Ca2+
Net entry of Na+ Initiates
an action potential which
is propagated along the
sarcolemma and down
the T tubules.
T tubule
Sarcolemma
SR tubules (cut)
Synaptic
cleft
vesicle
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma.
Action potential in
T tubule activates
voltage-sensitive receptors,
which in turn trigger Ca2+
release from terminal
cisternae of SR
into cytosol.
Calcium ions bind to troponin;
troponin changes shape, removing
the blocking action of tropomyosin;
actin active sites exposed.
Contraction; myosin heads alternately attach to
actin and detach, pulling the actin filaments toward
the center of the sarcomere; release of energy by
ATP hydrolysis powers the cycling process. SR
Ca2+ 1 2 3 4
Figure 9.10

8. Figure 9.10 Synaptic cleft vesicle 1 ACh SR tubules (cut) SR 2 3 Ca2+
Net entry of Na+ Initiates
an action potential which
is propagated along the
sarcolemma and down
the T tubules.
T tubule
Sarcolemma
SR tubules (cut)
Synaptic
cleft
vesicle
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma.
Action potential in
T tubule activates
voltage-sensitive receptors,
which in turn trigger Ca2+
release from terminal
cisternae of SR
into cytosol.
Calcium ions bind to troponin;
troponin changes shape, removing
the blocking action of tropomyosin;
actin active sites exposed.
Contraction; myosin heads alternately attach to
actin and detach, pulling the actin filaments toward
the center of the sarcomere; release of energy by
ATP hydrolysis powers the cycling process.
Removal of Ca2+ by active transport
into the SR after the action
potential ends. SR
Ca2+ 1 2 3 4 5
Figure 9.10

9. Figure 9.10 Synaptic cleft vesicle 1 ACh SR tubules (cut) SR 2 6 3
ADP Pi
Net entry of Na+ Initiates
an action potential which
is propagated along the
sarcolemma and down
the T tubules.
T tubule
Sarcolemma
SR tubules (cut)
Synaptic
cleft
vesicle
Axon terminal
ACh
Neurotransmitter released diffuses
across the synaptic cleft and attaches
to ACh receptors on the sarcolemma.
Action potential in
T tubule activates
voltage-sensitive receptors,
which in turn trigger Ca2+
release from terminal
cisternae of SR
into cytosol.
Calcium ions bind to troponin;
troponin changes shape, removing
the blocking action of tropomyosin;
actin active sites exposed.
Contraction; myosin heads alternately attach to
actin and detach, pulling the actin filaments toward
the center of the sarcomere; release of energy by
ATP hydrolysis powers the cycling process.
Removal of Ca2+ by active transport
into the SR after the action
potential ends. SR
Tropomyosin blockage restored,
blocking myosin binding sites on
actin; contraction ends and
muscle fiber relaxes.
Ca2+ 1 2 3 4 5 6
Figure 9.10