Exam 2 Chapter 9
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Exam 2 Chapter 9 - Leaderboard
Exam 2 Chapter 9 - Details
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A. movement of body b. Posture maintenance c. Heat production: 85% of body heat is generated by skeletal muscle; 25-40% converted to ATP; 60-75% converted to heat | 3 key functions of muscle |
Large portion of muscle with perimysium (surrounds group of cells) | Definition of a fascicle |
Muscle cell; multiple nucleuses, surrounded by endomysium (surrounds each individual cell) | Definition of myofiber |
Occupy most of muscle cell volume; Composed of sarcomeres arranged end to end -100-1000/cell | Definition of myofibril |
Inside sarcomere; has thick (myosin) and thin filaments (actin, tropomyosin, and troponin); sliding of thick and thin produce muscle shortening | Definition of myofilament |
Lack of exercise decreases myofibrils | Definition of muscle atrophy |
Exercise increases myofibril production | Definition of muscle hypertrophy |
6 polypeptide chains: 2 heavy 4 light; Heavy chains twist together to form myosin tail and each end forms a head that contracts and forms cross bridges | Myosin: how many polypeptide chains? What does head of myosin do? |
1 polypeptide band; rod shaped protein that spirals over actin to help stiffen and stabilize it; blocks actin dead so it cannot contract during resting state | Tropomyosin: how many polypeptide bands? Function? |
3 polypeptide units; one subunits attaches troponin to actin; another subunit binds tropomyosin and helps position on actin; third binds calcium ions | Troponin: how many polypeptide units? Function? |
Main protein of thin filaments; kidney shaped polypeptide units called globular actin; myosin binding site | Actin function |
Middle of sarcomere | M line |
Hexagonal arrangement of 6 THIN filaments surround each THICK filament and 3 THICK filaments enclose each thin filament | Explain how arrangement of thick and thin myofilaments from the observed sarcomere structural patterns of myofibril |
Sarcolemma is the cell membrane and T tubules are the inavigation of sarcolemma that surrounds each myofibril at the A band and I band junction | Discuss connection between sarcolemma and transverse tubules |
Sarcoplasmic reticulum: smooth endoplasmic reticulum that stores Ca; Each myofibril is surrounded by SR; releases Ca when muscle wants to contract; terminal cisternae: dilated end sacs of SR | Describe and give function and location of sarcoplasmic reticulum and terminal cisternae |
Epimysium: outside of entire muscle (protects muscle from friction against other muscles and bones); Perimysium: divides muscle cells into fascicles (bundles) Endomysium: covers individual muscle cells | 3 layers of CT that surrounds skeletal muscle and give function |
Binds to ACh receptors in skeletal muscle membrane; competes with ACh but does not stimulate ACh receptor; results in muscle paralysis | Curare effects neuromuscular junction how? |
Antibodies destroy ACh receptors; muscle paralysis | Myasthenia Gravis effects neuromuscular junction how? |
Toxin prevent ACh release; muscle paralysis; dilute solution of botox can be injected to help muscle relax | Botulism effects neuromuscular junction how? |
Produced toxin that blocks an inhibitory neurotransmitter in nervous system; causes muscle spasms and painful convulsions | Tetanus effects neuromuscular junction how? |
Prevents acetylcholinesterase which inactivates ACh; muscle spasms | Oreganophosphates effect neuromuscular junction how? |
Calcium is in SR (terminal cisternae); Troponin-tropomyosin prevents myosin from binding to sites on actin; ATP bonded to myosin cross bridges (concentration of ATP is high in relaxed muscle) | Describe conditions inside of a skeletal muscle cell at rest in regards to ATP, calcium, and state of myofilaments |
Muscle action potential will be generated at NMJ due to neural stimulus; ACh binds to receptor on motor end plate; causes action potential that travels along sarcolemma down T tubules; production of AP leads to muscle contraction | Explain why the process of muscle contraction is called Excitation-Contraction coupling |
O2 is impaired because bulging muscles compress blood vessels within them; happens when contractile activity reaches 70% (running 600 meters with max effort) | During anaerobic respiration, what happens when oxygen delivery is impaired |
20-40 seconds | During anaerobic respiration, JUST glycolysis lasts how long? |
1 minute | During anaerobic respiration, with glycolysis, ATP and CP, and lactic acid pathway, can support strenuous activity for how long? |
Direct phosphorylation: 15 seconds Anaerobic Pathway: 15 seconds with just ATP, 1 minute with glycolysis, ATP and CP, and lactic acid Aerobic Pathway: after 30 minutes, fatty acid becomes main energy levels (can continue as long as an hour as oxygen is being replenished | Discuss the relative durations of time that each form of ATP production provides for sustained activity |
Individual muscle cells of a motor unit will contract to its fullest extent of its immediate ability when stimulated by a nerve impulse (AP) of its threshold level | Define all or none principle |
1. size of load 2. number of motor units activated 3. initial length of fibers: more a muscle is stretched, the greater the contraction | Strength of contraction of an entire muscle depends on what (3 points) |
Increasing number of motor units can contract heavier force | Effect of increasing the number of active motor units on contraction force |
Cross bridges are active, but from the onset to the peak of tension development, and myogram begins to peak; lasts 10-100 milliseconds | Contraction phase of muscle twitch |
Due to pumping back Ca into SR; because number of cross bridges are declining, contractile force is declining on myogram; lasts 10-100 milliseconds | Relaxation phase of muscle twitch |
Highly resistant to fatigue; contract slowly; slower myosin ATPase; fuel source is fatty acids; aerobic respiration; more mitochondria; high myoglobin (binds 02 and acts as reservoir for more O2 until needed by mitochondria); more capillaries; small diameter; EX long distance runners | Discuss slow oxidative fibers based on cellular components, fatigue resistance, duration of contraction, and ATPase reaction rate |
Not resistent to fatigue; contract more rapidly; faster myosin ATPase; Fuel source is glucose; anaerobic respiration; fewer mitochondria, high glycogen, low myoglobin, fewer capillaries, large diameter; EX muscles of arms and legs | Discuss the fast glycolytic based on their cellular components, fatigue resistance, duration of contraction and ATPase reaction rate |
Contract more rapidly, faster myosin ATPase, fuel source is glucose, anaerobic and aerobic respiration, more mitochondria,high glycogen, high myoglobin, more capillaries, intermediate diameter, most muscles have combo of bth types | Discuss the intermediate fatigue resistant fibers based on their cellular components, fatigue resistance, duration of contraction and ATPase reaction rate. |
Endurance type exercises (running swimming) can transform fast twitch fatiguable into intermediate by producing more mitochondria and increased myoglobin | Examine how various types of exercise can induce changes in the fibers of skeletal muscle |
Slower | Does smooth muscle had a slower or faster contraction than skeletal muscle? |
Yes but not arranged in sarcomeres- NO TROPONIN | Does smooth muscle had actin and myosin and troponin? |