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AP Biology 2005-2006 Thick filaments: myosin  Protein  myosin molecule  long protein with globular head bundle of myosin proteins: globular heads aligned.

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Presentation on theme: "AP Biology 2005-2006 Thick filaments: myosin  Protein  myosin molecule  long protein with globular head bundle of myosin proteins: globular heads aligned."— Presentation transcript:

1 AP Biology 2005-2006 Thick filaments: myosin  Protein  myosin molecule  long protein with globular head bundle of myosin proteins: globular heads aligned together

2 AP Biology 2005-2006 Thick & thin filaments  Myosin tails together & heads pointed away from center of sarcomere

3 AP Biology 2005-2006 Interaction of thick & thin filaments  Cross bridges formed between myosin heads (thick filaments) & actin (thin flaments) cause the muscle to shorten (contract)

4 AP Biology 2005-2006 Cross bridge cycle  Cleaving ATP allows myosin head to bind to actin filament

5 AP Biology 2005-2006 How a muscle works: closeup  Myosin pulls actin chain along toward center of sarcomere  Sarcomere shortens (Z lines move closer together)  Muscle contracts  energy from:  ATP  glycogen  creatine phosphate

6 AP Biology 2005-2006 Closer look at muscle cell

7 AP Biology 2005-2006 Sarcoplasmic reticulum  Sarcoplasm  muscle cell cytoplasm  contains many mitochondria  Sarcoplasmic reticulum (SR)  organelle similar to ER  network of tubes  stores Ca +2  Ca +2 released from SR through channels  Ca +2 pumps then restore Ca +2 to SR  remove Ca +2 from cytosol  pumps use ATP Ca +2 ATPase of SR

8 AP Biology 2005-2006 Muscle at rest  Interacting proteins  at rest, troponin molecules hold tropomyosin molecules so that they cover the myosin-binding sites on actin

9 AP Biology 2005-2006 The Trigger: motor neurons  Motor neuron triggers muscle contraction

10 AP Biology 2005-2006  Nerve signal stimulates muscle cell’s sarcoplasmic reticulum (SR) to release stored Ca +2 Nerve trigger of muscle action

11 AP Biology 2005-2006  At rest, tropomyosin blocks myosin-binding sites on actin  Ca +2 binds to troponin complex  shape change causes movement of tropomyosin- troponin complex  exposes actin’s myosin-binding sites Ca +2 triggers muscle action

12 AP Biology 2005-2006 How Ca +2 controls muscle once myosin-binding sites on actin are uncovered, myosin heads bond to actin  Sliding filament model  ratchet system

13 AP Biology 2005-2006 Sliding filament model  Ratchet system  myosin bonding with actin  sliding thin & thick filaments past each other  myosin head releases & binds to next active site on actin  muscle doesn’t relax until Ca +2 is pumped back into SR

14 AP Biology 2005-2006 Put it all together…

15 AP Biology 2005-2006 How it all works…  Action potential causes Ca +2 release from SR  Ca +2 binds to troponin  Troponin moves tropomyosin  Tropomyosin uncovers myosin binding site on actin  Myosin binds actin  uses ATP to "rachet" once  releases, "unratchets" & binds to next actin  Myosin pulls actin chain along  Sarcomere shortens  Z discs move closer together  Whole fiber shortens  contraction!  Ca +2 pumps restore Ca +2 to SR  relaxation!  pumps use ATP

16 AP Biology 2005-2006 Fast twitch & slow twitch muscles  Slow twitch muscle fibers  contract slowly, but keep going for a long time  more mitochondria for aerobic respiration  less SR  Ca +2 remains in cytosol longer  long distance runner  “dark” meat = more blood vessels  Fast twitch muscle fibers  contract quickly, but get tired rapidly  store more glycogen for anaerobic respiration  sprinter  “white” meat

17 AP Biology 2005-2006 Muscle fatigue  Muscle fatigue  lack of sugar  lack of ATP to restore Ca +2 gradient  low O 2  lactic acid drops pH which interferes with protein function  synaptic fatigue  loss of acetylcholine  Muscle cramps  ATP depletion  build up of lactic acid  ion imbalance  massage or stretching increases circulation

18 AP Biology 2005-2006 Diseases of Muscle tissue  ALS  amyotrophic lateral sclerosis  Lou Gehrig’s disease  motor neurons degenerate  Myasthenia gravis  auto-immune  antibodies to acetylcholine receptors

19 AP Biology 2005-2006 Botox  Bacteria Clostridium botulinum toxin  blocks release of acetylcholine

20 AP Biology 2005-2006 Rigor mortis  So why are dead people “stiffs”?  no life, no breathing  no breathing, no O 2  no O 2, no respiration  no respiration, no ATP  no ATP, no Ca +2 pumps  Ca +2 cannot be removed  continuous contraction  muscles are tensed  muscles stiffen after death  eventually tissues breakdown & relax

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