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a1

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a1 In the thin filaments actin proteins are strung together like a bead of pearls In the thick filaments myosin proteins look like golf clubs bound together Muscle ... – PowerPoint PPT presentation

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Title: a1


1
a1
2
Muscle Proteins
  • In the thin filaments actin proteins are strung
    together like a bead of pearls
  • In the thick filaments myosin proteins look like
    golf clubs bound together

3
Muscle Proteins
  • In this first graphic, the myosin binding sites
    on the actin proteins are readily visible.
  • The regulatory proteins troponin and tropomyosin
    have been added to the bottom graphic The myosin
    binding sites have been
  • covered

4
Muscle Proteins
  • In this graphic the troponin-tropomyosin complex
    has slid down into the gutters of the actin
    molecule unblocking the myosin binding site
  • The troponin-tropomyosin complex can slide back
    and forth depending on the presence of Ca2

Myosin binding site exposed
5
Muscle Proteins
  • Ca2 binds to troponin which changes the shape of
    the troponin-tropomyosin complex and uncovers the
    myosin binding sites on actin

6
Muscle Proteins
  • Besides contractile and regulatory proteins,
    muscle contains about a dozen structural proteins
    which contribute to the alignment, stability,
    elasticity, and extensibility of myofibrils
  • Titan is the third most plentiful protein in
    muscle, after actin and myosin - it extends from
    the Z disc and accounts for much of the
    elasticity of myofibrils
  • Dystrophin is discussed later as it relates to
    the disease of muscular dystrophy

7
The Sliding-Filament Mechanism
  • With exposure of the myosin binding sites on
    actin (the thin filaments)in the presence of
    Ca2 and ATPthe thick and thin filaments slide
    on one another and the sarcomere is shortened

8
The Sliding-Filament Mechanism
  • The sliding of actin on myosin (thick filaments
    on thin filaments) can be broken down into a 4
    step process

9
  • Step 1 ATP hydrolysis
  • Step 2 Attachment

10
  • Step 3 Power Stroke
  • Step 4 Detachment

11
The Sliding-Filament Mechanism
12
Contraction and Movement OverviewInteractions
Animation
  • Contraction and Movement

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13
Length-Tension Relationship
  • Sarcomere shortening produces tension within a
    muscle

14
Excitation-Contraction Coupling
  • We will come back to the term excitation-contracti
    on coupling in a little bit
  • Before we can describe the
  • entire process, from
  • thinking of moving a
  • muscle to actual contraction
  • of sarcomeres, we must
  • first explore the processes
  • that occur at the neuromuscular junction

15
Neuromuscular Junction
  • Excitation-Contraction coupling (EC coupling)
    involves events at the junction between a motor
    neuron and a skeletal muscle fiber

16
Neuromuscular Junction
  • An enlarged view of the neuromuscular junction
  • The presynaptic membrane is on the neuron while
    the postsynaptic membrane is the motor end plate
    on the muscle cell. The two membranes are
  • separated by a space,
  • or cleft
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