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Muscle Tissue

Muscle Tissue. Introduction. Myocyte Cell membrane Cytoplasm Smooth ER. Muscle fibre Sarcolemma Sarcoplasm Sarcoplasmic Reticulum. 1. classification of muscle tissue. Voluntary muscle. Skeletal muscle Cardiac muscle Smooth muscle. striated muscle. Muscle Tissue. Involuntary

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Muscle Tissue

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  1. Muscle Tissue

  2. Introduction Myocyte Cell membrane Cytoplasm Smooth ER Muscle fibre Sarcolemma Sarcoplasm Sarcoplasmic Reticulum

  3. 1. classification of muscle tissue Voluntary muscle Skeletal muscle Cardiac muscle Smooth muscle striated muscle Muscle Tissue Involuntary muscle

  4. skeletal muscle

  5. 2.1 structure under LM LM:profile:cylindrical;with cross striations. sarcoplasm:numerous myofibrils with cross striations along its length,which leads to the periodic cross striations of the muscle fibre. nuclei:numerous, elliptical ,lie along the periphery of the muscle fibre.

  6. skeletal muscle

  7. myofibril:looks like riband. alternate dark band and light band. cross striation:corresponding dark and light bands in each myofibril lie at the same level of the muscle fibre. Light band:I bandDark band:A band. H band; M line; Z line. sarcomere:The part of a myofibril between two consecutive Z-bands. (1/2I+A+1/2I ) It is the structural and functional unit of the myofibril, it is the basic structure of the contraction.

  8. sarcomere

  9. 2.2 Ultrastructure of Muscle fibre ( EM ) 2.2.1 Myofibril:made up of thick filament (myosin filament) and thin filament (actin filament ). thick filament: made up of myosin molecules myosin: bean sprout in shape, having 2 heads and 1 tail. The head has an ATP-binding site and an actin- binding site.It is an inactive ATPase.

  10. thick filament

  11. thin filament:made up of actin, tropomyosin and troponin. actin: its monomer appears spheral,each monomer has a myosin binding site. Monomers polymerise each other to form a long double helix chain. tropomyosin: two helical polypeptide- chains. localized in the grooves of the actin. troponin:attached to the surface of tropomyosin. able to combine with Ca2+

  12. muscle fiber and myofibril

  13. thick filament and thin filament actintropomyosin troponin

  14. thin filament

  15. distribution of the thick and thin filaments in sarcomere

  16. 2.2.2 transverse tubule Position:at the level of each A-I junction. Formation:a finger-like inpushing from the surface membrane of the muscle fibre, coming into very close contact with elements of the sarcoplasmic reticulum. Function: conducting electrical action potentials from the surface of the muscle fibre deep into the interior of the fibre.

  17. 2.2.3 sarcoplasmic reticulum Position: between transverse tubules. Structure:SER .Their middle parts surround the myofibrils,while their terminal ends become expanding, forming terminal cisternae. Function:regulating the concertration of calcium ion in the sarcoplasm ; initiating muscle contraction by releasing calcium ions

  18. triad A triad consists of two terminal cisterns with a T-tubule in the middle. Function:Spread the nerve impulse deep into the muscle fiber quickly.

  19. transverse tubule and triad

  20. 2.3 mechanism of muscle contraction sliding filament mechanism 1. Action potential causes Ca++ release from S.E.R. 2. Ca++ binds Troponin 3. Troponin moves Tropomyosin 4. Tropomyosin uncovers myosin binding site on actin 5. Myosin binds actin 6. ATPase is activated ,which leads to the release of energe. 7. Myosin pulls actin chain along in one direction 8. Sarcomere shortens (Z lines move closer together) 9. Whole fiber shortens, ....... Contraction! 10.Ca++ pumps restore Ca++ to S.E.R. ...... Relaxation! Relaxation is the reverse of these steps.

  21. Muscle Contraction

  22. the difference of myofibril in the states of expansion and contraction

  23. 3 cardiac muscle 3.1 structure under LM LM: short and cylindrical, branched, with cross striations connected end-to-end by junctions. Junctions between neighboring cells are called intercalated disc. Nucleus: usually one central nucleus

  24. cardiac muscle

  25. Longitudinal and cross sections of cardiac muscle fibres

  26. 3.2 ultrastucture of cardiac muscle fibre EM:1) myofibrils are not obvious. 2) transverse tubules are wider,occurring at the Z-line. 3) undeveloped sarcoplasmic reticulum, usually forming diad. 4) intercalated disc consists ofgap junction, intermediate junction, desmosome, localized at the level of Z- line

  27. intercalated disc(EM)

  28. 4 smooth muscle 4.1 structure of smooth muscle fibre LM: spindle, no cross striation; nucleus: a central ellipse nucleus.

  29. smooth muscle fiber

  30. longitudinal and cross sections of smooth muscle

  31. 4.2the ultrastructure of smooth muscle fibre EM:no myofibril but have thin and thick filaments, no obvious sarcomere. contractile unit:gathering of thick and thin filaments. dense patch and dense body:

  32. Cross section of muscle fibers

  33. longitudinal section of muscle fibers

  34. 5 Key Points 1. sarcomere 2. Myofibril 3. transverse tubule and triad 4. Sarcoplasmic Reticulum 4. the ultrastructure of skeletal muscle and cardiac muscle 5. the structures of three muscle tissues under LM

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