Muscular System

1. Muscular System Honors Biology

3. Muscles • From the Latin mus meaning little mouse (Flexing muscles looked like mice scurrying under the skin) • Have ability to transform ATP into mechanical energy • Muscles can only pull, never push, which allows them to exert a force

4. ATP --> ADP + P + Energy ADP + P + Energy ---> ATP

5. Actin Myosin Muscle Types • Skeletal - Slow to Fast twitch • Cardiac - Fast twitch • Smooth - Slow twitch • Twitch = contraction • Skeletal & smooth muscle cells are elongated & called fibers • All have contractile myofilamentsactin & myosin

6. Muscle Fxn’s -Produce movement • Skeletal – locomotion & manipulation in response to the environment • Cardiac – moves blood • Smooth – propels (squeezes) stuff through the digestive, urinary, circulatory, and reproductive systems -Maintaining posture -Stabilizing joints -Generating heat (40% of your body heat)

7. Skeletal Muscle • Striated • Multinucleate • Voluntary muscles • Can generate great power but fatigue quickly • Non-rhythmic contraction

10. Sarcoplasmic Reticulum Sarcolemma (Plasma membrane) Sarcoplasm = (Cytoplasm with lots of glycogen stored)

11. Sarcomere – Contractile Unit of Muscle

14. Nerve & Blood Supply Each muscle is served by: • 1 nerve • 1 artery • 1 or more veins

15. Skeletal Muscle Attachment Skeletal muscles attach to bones in at least 2 places • When the muscle contracts, the moveable bone (Insertion), moves toward the immovable or less-moveable bone (Origin)

18. Sliding Filament Theory • Hugh Huxley 1954 proposed that during contraction actin will slide past myosin which result in overlapping filaments • Cross bridge attachment • Power stroke (Myosin head pivots pulling actin) • Cross bridge detachment (ATP binds to myosin head loosening the bond to actin) • “Cocking” the myosin head – ATPase hydrolyzes ATP to ADP & Pi returning the myosin head to it’s cocked position

24. Regulation of Contraction • Muscle contraction is stimulated by an action potential from a nerve • The neuromuscular junction in skeletal muscle is regulated by acetylcholine (ACh) • Ach needs to be broken down as soon as it is used; the enzyme acetlycholinesterase serves this function.

26. a. b. c.

30. Generating an Action Potential • Depolarization (Na channels open) • Repolarization (Na channels close K channels open) • Refractory Period (K channels close) • Na/K pump

32. Homeostatic Imbalance • Myasthenia gravis – autoimmune disease where ACh receptors are broken down by ACh antibodies resulting in drooping eyelids and general muscle fatigue • Curare – arrowhead poison used in South America which blocks ACh receptors resulting in respiratory arrest & death • Cobra venom – same as curare • Botulinum toxin prevents ACh release • Black widow spider venom releases all Ach • Nerve gasses inhibit AChase which keeps cleft flooded with ACh

33. ACh destruction • After ACh initiates the action potential the ACh is broken down by acetylcholinesterase • This prevents continued muscle contraction in the absence of additional nerve stimuli

34. Mysostatins control muscle growth Absence of results in enlarged muscle development