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Published byShanna Fleming Modified over 8 years ago
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SKELETAL – attached to bone/voluntary CARDIAC – heart/ involuntary SMOOTH – other organs/involuntary
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1. Producing body movements 2. Stabilizing body positions 3. Generating heat
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Organs Wrapped in connective tissue ◦ Extends to form tendons – attaches muscle to bone
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Fascicles: bundles of muscle fibers (cells). Connective tissue around each fascicle.
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Long, skinny cylinders – a cell Cytoplasm = glycogen Contains myofibrils ◦ Thin (actin) and thick (myosin) filaments inside
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Muscle surrounded by connective tissue. Inside are many bundles (surrounded by connective tissue). Many muscle fibers inside bundle (fascicles)
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Inside muscle fiber are myofibrils Filaments inside myofibrils
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What triggers it?
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A neuron connects to a muscle fiber [called the neuromuscular junction (NMJ)] Arrival of nerve impulse causes release of acetylcholine (ACh: a neurotransmitter – a chemical). ACh diffuses to receptors on muscular membrane, opening a Na + ion channel, causing Na + to enter the muscle fiber. Changes electrical conditions and produces an action potential (electrical current)
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Action potential triggers : ◦ Unblocks actin (thin) so myosin (thick) heads can bind to them ◦ Filaments slide past one another, shortening the muscle (Sliding filament mechanism)
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What triggers a muscle contraction? What is the location called where a neuron connects with a muscle? Does a muscle contraction mean it gets longer or shorter? Do muscle fibers fold or slide to get shorter?
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Botulinum toxin from bacterium Clostridium botulinum blocks exocytosis of ACh ◦ BOTOX
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Muscle fibers: all-or-none Strength of muscle contraction: depends on # of contracting fibers Affects energy usage ◦ Energy = capacity to do work ◦ Types: chemical, mechanical, heat, electrical
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ATP broken down during contraction Store little ATP, must produce it 3 ways: ◦ Aerobic respiration: slow, requires O2, lots ATP made ◦ Anaerobic glycolysis and lactic acid formation: faster, no O2 needed, less ATP made ◦ Creatine phosphate and ADP: CP not found in other cells, very fast, doesn’t last
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No contraction even with stimulation - occurs from oxygen debt (lactic acid builds up and ATP runs low)
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The more oxygen your body can take in and use determines your endurance
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The reaction of creatine phosphate and ADP generates ATP quickly or slowly? The ability of your body to use oxygen to produce ATP is _____ respiration. True or False: The strength of a muscle contraction is determined by the amount of muscle fibers that are contracting.
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Why are some people better at endurance activities? Why are some people FAST? Is it genetic? Is it training?
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1. Slow oxidative fibers ◦ Little power (small in diameter); fatigue resistant; many mitochondria. Adapted for maintaining posture & endurance activities 2. Fast oxidative-glycolytic fibers ◦ Intermediate in diameter, faster than #1 but briefer in duration. Adapted for: walking/sprinting 3. Fast glycolytic fibers ◦ Large diameter (contract strongly/quickly); tire quickly; large amount lactic acid build up ◦ Short, rapid, intense movement ◦ Adapted for intense anaerobic movements of short duration: weight lifting/throwing a ball
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Muscles are a combo of different fibers Proportion of fibers is individual
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Muscles tug on tendons which pull on bones One bone is pulled towards another Insertion towards origin Origin stays still Most cross a joint
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Flexion – decreases angle of joint Extension – increases joint angle. Past 180 is hyperextension
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Rotation – around the longitudinal axis Abduction – moving limb away from body midline Adduction – moving limb towards midline Circumduction – whole limb outlines a cone (circular)
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