Transcript PPT1

Motor mechanisms
Keywords (reading p. 10801086)
•
•
•
•
•
•
•
•
Bundle, fiber, myofibril, sarcomere
Z-line, thick filament, thin filament
Actin, myosin, sliding filament model
Molecular basis for filament movement
Troponin, tropomyosin
Sarcoplasmic reticulum
Integration of synaptic signals
neurotransmitters
Motor mechanisms
• Create movement
• Can be cilia, flagella, contractile proteins,
muscles
• Will focus on skeletal muscle
– Muscle of vertebrates that is under voluntary
control
Structure of
skeletal muscle
•
•
•
•
Bundle
Fiber
Myofibril
sarcomere
Part of Campbell 6th ed
p. 1081
Features of muscle cells
• # of nuclei- multinucleate; formed by fusion
of embryonic cells
• length - this results in very long cells
Part of Campbell 6th ed
p. 1081
Sarcomere
• Structure gives muscle a striated appearance
• Z line, thick filaments (myosin), thin
filaments (actin)
Part of Campbell 6th ed
p. 1081
Part of Campbell 6th ed
p. 1081
Sliding-filament model of muscle
Part of Campbell 6th ed
contraction p. 1081
Thick and thin filaments slide
Part of Campbell 6th ed
past each otherp. 1081
At maximal contraction, there is
no space at end of thick filament,
thin filaments overlap
Part of Campbell 6th ed
p. 1081
http://www.youtube.com/watch?v=InIha7bCTjM&feature=related
Molecular basis for movement of
filaments against each other
Part of Campbell 6th ed
p. 1082
ATP bound, head retracted and
unattached
Part of Campbell 6th ed
p. 1082
Hydrolysis of ATP cocks head
Part of Campbell 6th ed
p. 1082
Myosin head attaches to actin
filament
Part of Campbell 6th ed
p. 1082
Release of ADP + Pi causes a
further conformational change
pushing against the actin filament
Part of Campbell 6th ed
p. 1082
Binding of ATP to myosin head
causes dissociation from actin
filament
Part of Campbell 6th ed
p. 1082
Cycle repeats and sarcomere
shortens
Part of Campbell 6th ed
p. 1082
Control of muscle contraction by
Ca++
• Tropomyosin- blocks the myosin binding
sites on the actin filament when muscle is at
rest
• Troponin complex-binds calcium and
controls the position of tropomyosin
At rest, myosin cannot bind
because sites are covered by
tropomyosin
http://www.youtube.com/watch?v=WRxsOMenNQM
Part of Campbell 6th ed
p. 1083
During muscle contraction Ca++
++
levels rise. Ca binds to
troponin which then pulls
tropomyosin way from the
binding sites
Part of Campbell 6th ed
p. 1083
What triggers the Ca++ rise that
induces muscle contraction?
[Ca++]
regulated by
the
sarcoplasmic
reticulum
Campbell 6th ed
p. 1083
Structure of the sarcoplasmic
reticulum
• T tubules - are a network of the fiber plasma
membrane that goes deep into the muscle
fiber.
• This allows transmission of the action
potential into the fiber
Sequence of events leading to
muscle contraction
• Motor neuron releases acetylcholine
• Depolarization of the muscle fiber
membrane results in action potentials
• Action potentials trigger release of Ca++
from the sarcoplasmic reticulum
• Increased Ca++ allows actin and myosin to
slide against each other
Characteristics of other muscle
types:
• Cardiac muscle - found only in the heart,
striated, gap junctions allow direct electrical
signaling between cells
• Smooth muscle - involuntary muscle,
meshwork of actin and myosin, can contract
more (greater shortening), but with less
tension.