Muscle Action - PowerPoint PPT Presentation

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Muscle Action

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Muscle Action Muscle cells are polarized, have charge Excess of Na+ ions in ECF Excess of K+ ions in ICF mixed with PO4-3 cause muscle fiber to have negative charge – PowerPoint PPT presentation

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Title: Muscle Action


1
Muscle Action
  • Muscle cells are polarized, have charge
  • Excess of Na ions in ECF
  • Excess of K ions in ICF mixed with PO4-3 cause
    muscle fiber to have negative charge
  • The negative RMP is maintained by Na/K pumps

2
Muscle Action
  • Depolarization when ion gates of fiber are
    opened and ICF briefly becomes positive
  • Repolarization the return to RMP caused by K
    leaving cell
  • Action potential the quick voltage shift from
    RMP(-90mV) to 75mV and back to RMP

3
Excitation
  1. Voltage reaches knob causes Ca2 to be released
  2. Ca2 causes ACh to be released into cleft
  3. ACh diffuses across cleft and binds to ACh
    receptors

4
Excitation
  1. Bound receptors cause ion gates to open allowing
    Na to flow in and K to flow out, charge spikes
    to 75mV and then quickly falls to RMP as K ions
    flow out
  2. Action potential is achieved muscle cell is
    excited

5
Contraction
  1. Charged wave of action potential travels from the
    synapse to the tissue around the sarcomeres like
    ripples in a pond
  2. The charge causes tissue to release Ca that
    diffuses into the sarcomere
  3. Ca binds to the thin filaments causing the G
    actin active sites to be exposed for binding
    myosin heads

6
Contraction
  1. The myosin head breaks down ATP into ADP and Pi
    and uses the energy to move and bind to the
    active site forming the cross-bridge
  2. The head releases the ADP and Pi causing a power
    stroke where the thin filament is pulled over the
    thick
  3. The head will stay bound until another ATP binds
    to it breaking the cross-bridge

7
Relaxation
  1. Nerve impulses stop, ACh is not released
  2. AChE breaks down the ACh left in the cleft and
    the components are reabsorbed by the knob
  3. Active transport Ca pumps return the gradient to
    pre action potential levels

8
Relaxation
  1. Low Ca concentrations cause Ca to unbind from G
    actin covering the active sites
  2. Muscle returns to resting length
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