deck_8220383 Flashcards
defining characteristic of muscle tissue
ability to contract!- shortening/lengthening of skeletal muscle- contraction of smooth muscle
skeletal muscle
- voluntary movement- striated- covered by thin layer of fascia- parallel arrays of muscle fibers- external basal lamina
skeletal muscle histology
- longitudinal eosinophilic fiber filled with myofibrils- multiple nuclei per cell; all pushed to the edges- striations perpendicular to length of myocyte- in cross-section: striations not visble but individual myofibrils are
sarcomeric unit
- gives skeletal muscle striated appearance- Z lines = boundaries- I band = actin myofilaments- A band = myosin overlapping with actin- H band = isolated mysoin- M band = cross linked myosin (middle)
nerve stimulation of a skeletal muscle fiber
occurs via somatomotor neurons in spinal and cranial nerves1. nerve impulse causes Ach release from end plate synaptic vesicles into synaptic cleft of sarcolemma2. opening of ACh gated Na+ channels causes local depolarization of sarcolemma3. depolarization spreads to T tubules4. at the triad, depolarization enters the cell through T tubules at the junction of A and I bands5. depolarization activates voltage sensitive Ca channels on the T tubule membrane6. Ca released from sarcoplasmic reticulum into sarcoplasm7. initiation of muscle contraction
subdivisions of muscle (small -> large)
- myofilament = complex of actin and myosin- myofibril = bundle of myofilaments = back to back sarcomeres- muscle fiber = cell = bundle of myofibrils surrounded by endomysium- muscle fascile = made of fibers surrounded by perimysium- skeletal muscle = made of fasciles and covered by epimysium
thin filaments
- actin, troponin, and tropomyosin- present in Z, I, A bands
thick filaments
- myosin- present in A, H, M bands
contraction of skeletal muscle
- relaxed state: troponin/tropomyosin bind myosin1. muscle stimulation = Ca release2. Ca binds to troponin on thin filaments, freeing myosin3. myosin binds actin4. power stroke: myosin pulls actin, pulling thin filaments towards M-line5. ATP binding allows for myosin release of actin
structural elements of a muscle fiber
- sarcolemma = plasma membrane- myofibrils surrounded by layer of sarcoplasm containing mitochondria and sarcoplasmic reticulum- T tubules = entrances through sarcolemma- Triad = t tubule adjacent to two terminal cisternae of the sarcoplasmic reticulum
cardiac muscle histology
- also striated- shorter, branching myofibrils- central nuclei- cells attach at ends via intercalated disks (junctions that propagate depolarization)
cardiac muscle contraction
- similar to skeletal muscle (also dependent on Ca ions)
smooth muscle
- involuntary movement- no striations- actin and myosin connected by dense bodies (a-actinin + IFs (desmin and vimentin))
smooth muscle histology
- eosinophilic cytoplasm- cigar shaped nuclei
smooth muscle contraction
- initiation of contraction by nerve impulse, stretch, or hormones2. intracellular Ca increase3. calcium binds calmodulin, which activates myosin light chain kinase4. phosphorylation of myosin5. myosin-P binds actin (no troponin involved)6. with ATP, myosin head will bend and induce contraction
