the skeletal system and skin
DESCRIPTION
The Skeletal System and Skin. Endoskeletons Exoskeletons Hydrostatic skeletons Bone Osteocytes Osteoclasts Osteoblasts Restructuring of bone. Collagen Phosphate Calcium hydroxyapatite. Compact Bone Spongy Bone Red bone marrow Yellow bone marrow Blood vessels Haversian canals - PowerPoint PPT PresentationTRANSCRIPT
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The Skeletal System and Skin
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The Skeletal System• Endoskeletons• Exoskeletons• Hydrostatic skeletons• Bone• Osteocytes• Osteoclasts• Osteoblasts• Restructuring of bone.• Collagen• Phosphate• Calcium• hydroxyapatite
• Compact Bone• Spongy Bone• Red bone marrow• Yellow bone marrow• Blood vessels• Haversian canals• Canaliculi• lamallae
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Long Bone Structure
• Periosteum• Medullary or Marrow Cavity• Epiphyseal or Growth plate (composed of
cartilage)• Articular cartilage
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Axial and Appendicular Skeleton• Axial Skeleton• Skull• Vertebral column• Vertebrae (33 bones)• Cartilaginous disks• Cervical, Thoracic, Lumbar, sacrum, coccyx• Rib cage (24 ribs)• Sternum
• Appendicular Skeleton• All bones not part of the axial skeleton.• Appendages
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Joints
• Articulation• Articular cartilage• Ligaments• Hinge joint• Ball and socket joints• Synovial cavities and fluid• Bursa• meniscus
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Cartilage
• Where found?• Chondrocytes• Lacunae• Hyaline cartilage• Flexible• Light weight
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The skin• Integument• Functions• Epidermis• Dermis• Hypodermis
• Epidermis• Keratin• Dead, flat squamous cells.• Airtight and watertight• Melanin• cuticile
• Dermis• Dense connective tissue• Blood vessels• Maintenance of body temperature• Nerve fibers• Smooth muscle• Elastic fibers• Follicles (hairs)• Sebaceous glands
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Dermis and Hypodermis
• Arrector pili muscles• Goose bumps• Receptors• Nerves• Sweet Glands• Exocrine glands
• Hypodermis• Subcutaneous Layer• Adipose or fat• Loose connective tissue• Lots of major blood vessels.
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Sensory and Motor Mechanisms
• (Just focusing on motor mechanisms)
• Motor Mechanisms
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Muscle
voluntary, striated
involuntary, striatedauto-rhythmic
involuntary, non-striatedevolved first
multi-nucleated
digestive systemarteries, veins
heartmoves bone
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tendon
skeletal muscle
muscle fiber (cell)
myofilamentsmyofibrils
plasma membrane
nuclei
Organization of Skeletal muscle
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Human endoskeleton
206 bones
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Muscles movement • Muscles do work by contracting– skeletal muscles come in
antagonistic pairs• flexor vs. extensor
– contracting = shortening• move skeletal parts
– tendons• connect bone to muscle
– ligaments• connect bone to bone
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Structure of striated skeletal muscle • Muscle Fiber– muscle cell
• divided into sections = sarcomeres• Sarcomere– functional unit of muscle contraction – alternating bands of
thin (actin) & thick (myosin) protein filaments
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Muscle filaments & Sarcomere
• Interacting proteins– thin filaments• braided strands
– actin– tropomyosin– troponin
– thick filaments• myosin
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Thin filaments: actin• Complex of proteins– braid of actin molecules & tropomyosin fibers
• tropomyosin fibers secured with troponin molecules
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Thick filaments: myosin• Single protein– myosin molecule• long protein with globular head
bundle of myosin proteins:globular heads aligned
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Interaction of thick & thin filaments• Cross bridges – connections formed between myosin heads (thick
filaments) & actin (thin filaments) – cause the muscle to shorten (contract)
sarcomere
sarcomere
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Where is ATP needed?
3
4
12
1
1
1
Cleaving ATP ADP allows myosin head to bind to actin filament
thin filament(actin)
thick filament(myosin)
ATP
myosin head
formcrossbridge
binding site
So that’s where those10,000,000 ATPs go!Well, not all of it!
ADP
releasecrossbridge
shortensarcomere
1
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Closer look at muscle cell
multi-nucleated
Mitochondrion
Sarcoplasmicreticulum
Transverse tubules(T-tubules)
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Muscle cell organelles• Sarcoplasm – muscle cell cytoplasm– contains many mitochondria
• Sarcoplasmic reticulum (SR)– organelle similar to ER• network of tubes
– stores Ca2+
• Ca2+ released from SR through channels• Ca2+ restored to SR by Ca2+ pumps– pump Ca2+ from cytosol– pumps use ATP
Ca2+ ATPase of SR
ATP
There’sthe restof theATPs!
But whatdoes theCa2+ do?
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Muscle at rest• Interacting proteins– at rest, troponin molecules hold tropomyosin fibers so
that they cover the myosin-binding sites on actin• troponin has Ca2+ binding sites
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The Trigger: motor neurons • Motor neuron triggers muscle contraction– release acetylcholine (Ach) neurotransmitter
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• At rest, tropomyosin blocks myosin-binding sites on actin– secured by troponin
• Ca2+ binds to troponin– shape change
causes movement of troponin
– releasing tropomyosin– exposes myosin-binding
sites on actin
Ca2+ triggers muscle action
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How Ca2+ controls muscle• Sliding filament model– exposed actin binds to
myosin– fibers slide past each
other• ratchet system
– shorten muscle cell• muscle contraction
– muscle doesn’t relax until Ca2+ is pumped back into SR • requires ATP
ATP
ATP
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Put it all together…1
ATP
2
3
4
5
7
6
ATP
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How it all works…• Action potential causes Ca2+ release from SR
– Ca2+ binds to troponin• Troponin moves tropomyosin uncovering myosin binding
site on actin• Myosin binds actin
– uses ATP to "ratchet" each time– releases, "unratchets" & binds to next actin
• Myosin pulls actin chain along• Sarcomere shortens
– Z discs move closer together• Whole fiber shortens contraction!• Ca2+ pumps restore Ca2+ to SR relaxation!
– pumps use ATP
ATP
ATP
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Fast twitch & slow twitch muscles• Slow twitch muscle fibers– contract slowly, but keep going for a long time
• more mitochondria for aerobic respiration • less SR Ca2+ remains in cytosol longer
– long distance runner– “dark” meat = more blood vessels
• Fast twitch muscle fibers– contract quickly, but get tired rapidly• store more glycogen for anaerobic respiration
– sprinter– “white” meat
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Muscle limits• Muscle fatigue– lack of sugar
• lack of ATP to restore Ca2+ gradient– low O2
• lactic acid drops pH which interferes with protein function
– synaptic fatigue• loss of acetylcholine
• Muscle cramps– build up of lactic acid – ATP depletion– ion imbalance
• massage or stretching increases circulation
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Diseases of Muscle tissue• ALS– amyotrophic lateral sclerosis– Lou Gehrig’s disease– motor neurons degenerate
• Myasthenia gravis– auto-immune– antibodies to
acetylcholine receptors
Stephen Hawking
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Botox• Bacteria Clostridium botulinum toxin– blocks release of acetylcholine– botulism can be fatal muscle
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Rigor mortis So why are dead people “stiffs”?
no life, no breathing no breathing, no O2 no O2, no aerobic respiration no aerobic respiration, no ATP no ATP, no Ca2+ pumps Ca2+ stays in muscle cytoplasm muscle fibers continually
contract tetany or rigor mortis
eventually tissues breakdown& relax measure of time of death
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2006-2007
So don’t be a stiff!Ask Questions!!