2. Skeletal Muscle ~40-45% of BW 400+ in body Responsible for all movement and support

3. Composition 75% water 20% protein 5% other: fats, CHO, high energy phosphates, urea, lactic acid, enzymes, Na+, K+, Cl-, and minerals: Ca2+, Mg, and phosphorous

4. Striated in Apperance Structure is fascia and connective tissue sheaths which separate individual muscles and hold muscles in place Under fascia: epimysium, CT surrounding muscle Under epimysium: fascicles, bundles of muscle fibers enclosed by perimysium –There are ~150 fibers/fasciculus

5. Fasciulus Bundle of muscle cells (fibers) surrounded by perimysium Each fiber in fasciulus is surrounded by endomsysium Under endomysium is sarcolemma, cell membrane Connective tissue surrounds muscle and forms a network that extends throughout the muscle

6. Sarcoplasm Cytoplasm of muscle cell Under sarcolemma Contains contractile proteins, enzymes, fat, and glycogen particles, nuclei, and specialized cellular organelles

7. Proteins Greatest amounts: MyosinActinTropomysin Also, large amounts of myglobin

8. Muscle cells Multi-nucleated Striated appearance

9. Sarcoplasmic Reticulum (SR) Embedded in sarcoplasm Network of channels and vessicles Lies in parallel to the myofibrils Lateral end: sac-like cistern which stores Ca2+

10. Transverse Tubules (T-Tubules) Perpendicular to myofibril T-tubule and two terminal cisternae are the region of the Z-line Called a triad Two triads/sarcomere One sarcomere: Z line – Z line T-tubules open to the outside of each muscle fiber Functioning as a network, spreading the AP from outer to inner portion of muscle fiber

11. Muscle Blood supply With exercise, increase in blood flow to muscle

12. Myosin molecule composed of 6 polypeptide chains 2 heavy 4 light One myosin filament is made up of 200 or more myosin molecules Exactly 1.6 micrometers in length

13. Tails are in center Heads coming out from the center (0.2 micrometers) hinges at two points –arm separates from the filament –where the head attaches to the arm filament is twisted, cross-bridges are displaced from previous set by 120° Insures that cross-bridges extend in all directions from the filament

14. Actin Primary protein in thin filament Forms the backbone of filament Approximately 3000 actin/myofibril

15. Troponin and Tropomyosin Two other proteins in filament

16. Two shapes of actin 1. Globular (G-actin) polymerizes and unfolds into 2. Fibrous (F-actin) double stranded in helix, complete revolution every 70 nanometers 13 G-actin molecules in each revolution of the helical strand Each G-actin has an ADP molecule attached to it

17. ADP are purported to be the active sites on the actin for cross-bridge interaction Active sites are staggered, one site on total filament every 2.7 nanometers each actin is 1 micrometer long

18. Filament bases Inserted into Z discs, other end protrudes into sarcomere In spaces between myosin molecules

19. Z line Actin filaments extending from either side Into neighboring sarcomeres Passes from myofibril to myofibril Attaching the myofilaments to each other across the muscle fiber

20. Sarcomere Basic contractile unit, from Z line to Z line

21. Tropomyosin Associated with the actin filament Loosely connected to the F-actin strands Wrap themselves spirally around the sides of the F-actin helix

22. At rest, tropomyosin molecules lie on top of the actin active sites, inhibiting interaction between actin and myosin each tropomyosin covers about seven active sites

23. Troponin Protein attached near one end of each tropomyosin molecule Complex of 3 protein subunits 1. Troponin I (TnI) strong affinity for actin 2. Troponin T (TnT) strong affinity for tropomyosin 3. Troponin C (TnC) strong affinity for calcium

24. Troponin complex may attach the tropomyosin to the actin Each subunit plays a role in the contractile process

25. Sarcomere Ultrastructure alternating light and dark bands along the length of the muscle fiber give it its characteristic striated appearance Lighter area: I band Darker zone: A band

26. I band (isotropic): when light passes through this band, its velocity is the same A band (anisotropic): light does not scatter equally Z line bisects the I band and adheres to the sarcolemma, adding stability to the sarcomere Z line has alpha actin (maintains spacing of actin) and desmin (connects z lines of different myofibrils together)

27. Position of the actin and myosin results in an overlap of the filaments in the sarcomere Center of the A band is the H zone, a lighter area due to the absence of actin filaments in this region Central part of the H zone is bisected by the M line, which delineates the sarcomere’s center M line is protein structures that support the arrangement of the myosin filaments also has myomesin which provides an anchor for titin (elastic filament Helps maintain centering between Z lines) and M-CK, provides ATP from CP