Protection, Support, and Movement
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Protection, Support, and Protection, Support, and MovementMovement
Chapter 39Chapter 39
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KEY CONCEPTSKEY CONCEPTS
• Many structures and processes have Many structures and processes have evolved in animals for protection, support, evolved in animals for protection, support, and movementand movement
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Learning Objective 1Learning Objective 1
• Compare the functions of the Compare the functions of the external external epitheliumepithelium of invertebrates and vertebrates of invertebrates and vertebrates
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Epithelial TissueEpithelial Tissue
• In both invertebrates and vertebratesIn both invertebrates and vertebrates• protects underlying tissuesprotects underlying tissues• specialized sensory or respiratory functions specialized sensory or respiratory functions
• Outer epithelium specialized to secreteOuter epithelium specialized to secrete• lubricants or adhesiveslubricants or adhesives• odorous or poisonous substancesodorous or poisonous substances
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Epithelial TissueEpithelial Tissue in Invertebratesin Invertebrates
• Cuticle Cuticle • protective shell secreted by outer epithelium protective shell secreted by outer epithelium
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Integumentary System of Integumentary System of VertebratesVertebrates
• Skin and structures that develop from it Skin and structures that develop from it
• Mammalian skin includesMammalian skin includes• hair, claws or nails, sweat glands, oil glands, hair, claws or nails, sweat glands, oil glands,
sensory receptorssensory receptors
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Learning Objective 2Learning Objective 2
• Relate the structure of Relate the structure of vertebrate skinvertebrate skin to to its functionsits functions
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Feathers and HairFeathers and Hair
• Feathers of birds and hair of mammals Feathers of birds and hair of mammals • form insulating layer form insulating layer • helps maintain constant body temperaturehelps maintain constant body temperature
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Epidermis 1Epidermis 1
• Protects body from outer environment Protects body from outer environment
• Stratum corneumStratum corneum • most superficial layermost superficial layer• consists of dead cells filled with consists of dead cells filled with keratinkeratin
• KeratinKeratin• insoluble proteininsoluble protein• gives mechanical strength to skingives mechanical strength to skin• reduces water loss reduces water loss
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EpidermisEpidermis 22
• Stratum basaleStratum basale • cells divide, are pushed up to skin surface cells divide, are pushed up to skin surface • cells mature, flatten, produce keratincells mature, flatten, produce keratin• eventually die and slough offeventually die and slough off
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DermisDermis
• Consists of dense, fibrous connective tissue Consists of dense, fibrous connective tissue
• Rests on layer of Rests on layer of subcutaneous tissuesubcutaneous tissue• composed largely of insulating fatcomposed largely of insulating fat
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Human SkinHuman Skin
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Fig. 39-1, p. 829
Openings of sweat glands
CapillaryNerve endings
Stratum corneum
EpidermisStratum basale
Melanocyte (pigment cell)
Hair erector muscle
Dermis Hair shaftSensory receptor (Pacinian corpuscle)Subcutaneous
tissue
Hair follicleArtery
Vein Sweat gland Sebaceous gland
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KEY CONCEPTSKEY CONCEPTS
• Epithelial coverings protect underlying Epithelial coverings protect underlying tissues and may be specialized for tissues and may be specialized for sensory, respiratory, or other functionssensory, respiratory, or other functions
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Learning Objective 3Learning Objective 3
• Compare the structure and functions of Compare the structure and functions of different types of skeletal systems, different types of skeletal systems, including the including the hydrostatic skeletonhydrostatic skeleton, , exoskeletonexoskeleton, and , and endoskeletonendoskeleton
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TheThe Skeletal SystemSkeletal System
• Supports and protects the body Supports and protects the body
• Transmits mechanical forces generated by Transmits mechanical forces generated by muscles muscles
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Hydrostatic SkeletonHydrostatic Skeleton
• Fluid in closed body compartmentFluid in closed body compartment• transmits forces generated by contractile cells transmits forces generated by contractile cells
or muscleor muscle
• Found in soft-bodied invertebratesFound in soft-bodied invertebrates• cnidarians, flatworms, annelids cnidarians, flatworms, annelids
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Hydrostatic SkeletonHydrostatic Skeleton
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Fig. 39-2, p. 830
Longitudinal contractile fibers of epidermal layer
Circular contractile fibers of gastrodermis
(a) Contraction of circular contractile fibers elongates the body.
(b) Contraction of longitudinal fibers shortens the body.
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Fig. 39-2, p. 830
(a) Contraction of circular contractile fibers elongates the body.
(b) Contraction of longitudinal fibers shortens the body.
Longitudinal contractile fibers of epidermal layer
Circular contractile fibers of gastrodermis
Stepped Art
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ExoskeletonsExoskeletons
• Nonliving skeleton Nonliving skeleton • characteristic of mollusks and arthropodscharacteristic of mollusks and arthropods• doesn’t grow, arthropods must doesn’t grow, arthropods must moltmolt periodically periodically
• Arthropod skeletonArthropod skeleton• composed partly of composed partly of chitinchitin • jointed for flexibility jointed for flexibility • adapted for many lifestylesadapted for many lifestyles
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EcdysisEcdysis
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EndoskeletonsEndoskeletons• Consist of living tissueConsist of living tissue
• can growcan grow
• Found in echinoderms and chordatesFound in echinoderms and chordates
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Learning Objective 4Learning Objective 4
• Describe the main divisions of the Describe the main divisions of the vertebrate skeletonvertebrate skeleton and the bones that and the bones that make up each divisionmake up each division
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The Vertebrate Skeleton 1The Vertebrate Skeleton 1
• Axial skeletonAxial skeleton • skull skull • vertebral column vertebral column • rib cage rib cage • sternumsternum
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The Vertebrate Skeleton 2The Vertebrate Skeleton 2
• Appendicular Appendicular skeletonskeleton • limbslimbs • pectoral girdlepectoral girdle• pelvic girdlepelvic girdle
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Fig. 39-5, p. 832
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Fig. 39-5a, p. 832
Skull
Sternum
Rib cage
Vertebrae
Axial skeleton (brown)
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Fig. 39-5b, p. 832
Clavicle
Humerus
RadiusPelvic girdle
Ulna CarpalsMetacarpalsPhalanges
Femur
PatellaFibula
TibiaTarsalsMetatarsalsPhalanges
Scapula
Appendicular skeleton (brown)
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KEY CONCEPTSKEY CONCEPTS
• Skeletal systems, whether they are Skeletal systems, whether they are hydrostatic skeletons, exoskeletons, or hydrostatic skeletons, exoskeletons, or endoskeletons, support and protect the endoskeletons, support and protect the body and transmit mechanical forces body and transmit mechanical forces important in movementimportant in movement
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Learning Objective 5Learning Objective 5
• Describe the structure of a typical Describe the structure of a typical long long bonebone
• Differentiate between Differentiate between endochondralendochondral and and intramembranousintramembranous bone development bone development
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A Long BoneA Long Bone
• Consists of Consists of • a thin outer shell of a thin outer shell of compact bonecompact bone
surrounding inner surrounding inner spongy bonespongy bone • a central cavity that contains a central cavity that contains bone marrowbone marrow
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A Long BoneA Long Bone
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Fig. 39-6, p. 833
Articular surface covered with cartilage
EpiphysisRed marrow in spongy bone
Metaphysis
Periosteum
Yellow marrow
Blood supply
Diaphysis
Compact bone
Articular cartilage
Epiphysis
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Bone DevelopmentBone Development
• Long bonesLong bones• develop from cartilage templates during develop from cartilage templates during
endochondral bone development endochondral bone development
• Other bones (such as flat bones of skull)Other bones (such as flat bones of skull)• develop from noncartilage connective tissue develop from noncartilage connective tissue
model by model by intramembranous bone intramembranous bone developmentdevelopment
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Bone CellsBone Cells
• OsteoblastsOsteoblasts• cells that produce bonecells that produce bone
• OsteoclastsOsteoclasts• cells that break down bonecells that break down bone
• Osteoblasts and osteoclasts work together Osteoblasts and osteoclasts work together to shape and remodel boneto shape and remodel bone
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Learn more about the human Learn more about the human skeletal system and a typical skeletal system and a typical long bone by clicking on the long bone by clicking on the
figures in ThomsonNOW.figures in ThomsonNOW.
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Learning Objective 6Learning Objective 6
• Compare the main types of Compare the main types of vertebrate vertebrate jointsjoints
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JointsJoints
• Junctions of two or more bones Junctions of two or more bones
• LigamentsLigaments• connective tissue bands connective tissue bands • connect bones connect bones • limit movement in jointlimit movement in joint
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Types of JointsTypes of Joints
• Immovable jointsImmovable joints• sutures of the skull sutures of the skull
• Slightly movable jointsSlightly movable joints• joints between vertebrae joints between vertebrae
• Freely movable jointFreely movable joint • enclosed by joint capsule lined with enclosed by joint capsule lined with
membrane that secretes membrane that secretes synovial fluidsynovial fluid
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Learning Objective 7Learning Objective 7
• Relate the structure and function of Relate the structure and function of insect insect flight musclesflight muscles
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Insect Flight MusclesInsect Flight Muscles
• Large numbers of mitochondria and Large numbers of mitochondria and tracheae (air tubes) tracheae (air tubes) • support high metabolic rate required for flightsupport high metabolic rate required for flight
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Learning Objective 8Learning Objective 8
• Describe the structure of Describe the structure of skeletal musclesskeletal muscles and their and their antagonistic actionsantagonistic actions
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Muscular SystemsMuscular Systems
• In vertebrates and most invertebrates In vertebrates and most invertebrates • muscle tissue contracts (shortens) muscle tissue contracts (shortens) • moves body parts by pulling on themmoves body parts by pulling on them
• Three types of muscleThree types of muscle• skeletal skeletal • smoothsmooth• cardiac musclecardiac muscle
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The Muscular SystemThe Muscular System
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Fig. 39-8a, p. 835
Muscles that flex fingers
Facial muscles
Sternocleido- mastoidPlatysma
Trapezius
Latissimus dorsiClavicleDeltoid
Rectus abdominis Pectoralis major
Linea alba Biceps brachii
External oblique Brachialis
Gluteus medius Wrist and finger flexorsGracilis
SartoriusQuadriceps femoris Triceps brachii
Patella
Gastrocnemius
Tibialis anterior
Soleus Tibia
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Fig. 39-8b, p. 835
Biceps brachii
Sternocleidomastoid
Trapezius
DeltoidBrachialis
Triceps brachii Latissimus dorsi
Brachioradialis External oblique
Muscles that flex fingers
Gluteus maximus
Hamstring muscles
Gracilis SemitendinosusBiceps femorisSemi-membranosus
Gastrocnemius
Soleus
Achilles tendon
Calcaneus
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Vertebrate Skeletal MusclesVertebrate Skeletal Muscles
• Pull on Pull on tendonstendons• connective tissue, attaches muscles to bones connective tissue, attaches muscles to bones
• Muscle contractionMuscle contraction• pulls bone toward or away from the bone with pulls bone toward or away from the bone with
which it articulateswhich it articulates
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Muscle ActionsMuscle Actions
• Skeletal muscles act Skeletal muscles act antagonisticallyantagonistically to to one another one another
• AgonistAgonist • muscle that produces a particular actionmuscle that produces a particular action
• AntagonistAntagonist • produces the opposite movementproduces the opposite movement
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Muscle ActionsMuscle Actions
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Fig. 39-7, p. 834
Biceps relaxes
Triceps contracts
Triceps relaxes
Biceps contracts
Flexion Extension
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Insert “Opposing muscle Insert “Opposing muscle action”action”
biceps_triceps.swfbiceps_triceps.swf
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Skeletal Muscle Structure 1Skeletal Muscle Structure 1
• Skeletal muscle (such as biceps)Skeletal muscle (such as biceps)• organorgan made up of hundreds of made up of hundreds of muscle fibers muscle fibers
• Muscle fiberMuscle fiber consists of consists of • threadlike threadlike myofibrilsmyofibrils • composed of smaller composed of smaller myofilaments (filaments)myofilaments (filaments)
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Muscle Muscle StructureStructure
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Fig. 39-9a, p. 836
Biceps muscle
(a) A muscle such as the biceps in the arm consists of many fascicles (bundles) of muscle fibers.
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Fig. 39-9b, p. 836
Muscle fibers
(b) A fascicle wrapped in a connective tissue covering.
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Fig. 39-9c, p. 836
SarcolemmaSarcoplasmic reticulum
T tubuleMitochondria Nucleus
(c) Part of a muscle fiber showing the structure of myofibrils. The Z lines mark the ends of the sarcomeres.
Myofibril
Z line
Myofilaments
Sarcomere
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Fig. 39-9d, p. 836
1 µm(d) TEM of a striated muscle.
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Fig. 39-9e, p. 836
25 µm(e) LM showing striations.
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Skeletal Muscle Structure 2Skeletal Muscle Structure 2
• Striations of skeletal muscle fibersStriations of skeletal muscle fibers• overlapping overlapping actin actin and and myosin filamentsmyosin filaments
• SarcomereSarcomere • contractile unit of contractile unit of actinactin (thin) and (thin) and myosinmyosin
(thick) filaments(thick) filaments
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Sliding Filament ModelSliding Filament Model
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Fig. 39-10a, p. 838
Cross bridges
Actin (thin filament)
Myosin (thick filament)
Sarcomere
A band I band
H zone
Cross bridgesActin (thin) filament Myosin (thick) filament
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Insert “Sliding filament Insert “Sliding filament model”model”
sliding_filament_v2.swfsliding_filament_v2.swf
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Learning Objective 9Learning Objective 9
• List, in sequence, the events that take List, in sequence, the events that take place during place during muscle contractionmuscle contraction
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Muscle Contraction 1Muscle Contraction 1
• AcetylcholineAcetylcholine released by motor neuron released by motor neuron• binds to receptors on muscle fiber surface binds to receptors on muscle fiber surface
• Causes Causes depolarizationdepolarization of sarcolemma of sarcolemma • transmission of transmission of action potential action potential
• Action potentialAction potential spreads through spreads through T tubulesT tubules • releasing Ca ions from releasing Ca ions from sarcoplasmic reticulumsarcoplasmic reticulum
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Muscle Contraction 2Muscle Contraction 2
• Ca ions bind to Ca ions bind to troponintroponin in actin filaments in actin filaments • causing troponin to change shape causing troponin to change shape
• Troponin pushes Troponin pushes tropomyosintropomyosin away from away from binding sites on actin filamentsbinding sites on actin filaments
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Muscle Contraction 3Muscle Contraction 3
• ATPATP binds to myosin binds to myosin • ATP is split, putting myosin head in high-ATP is split, putting myosin head in high-
energy state (“cocked”) energy state (“cocked”)
• Energized myosinEnergized myosin heads attach to heads attach to exposed binding sites on actin filaments exposed binding sites on actin filaments • forming forming cross bridgescross bridges that link myosin and that link myosin and
actin filamentsactin filaments
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Muscle Contraction 4Muscle Contraction 4
• Cross bridgeCross bridge flexes as phosphate is flexes as phosphate is released released • power stroke pulls actin filament toward power stroke pulls actin filament toward
center of sarcomerecenter of sarcomere
• ADPADP released during power stroke released during power stroke
• Myosin head binds a new ATPMyosin head binds a new ATP• lets myosin head detach from actinlets myosin head detach from actin
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Muscle Contraction 5Muscle Contraction 5
• As long as calcium ion concentration As long as calcium ion concentration remains elevated remains elevated • new ATP is split, sequence repeats new ATP is split, sequence repeats
• Myosin reattaches to new active sitesMyosin reattaches to new active sites• filaments are pulled past one anotherfilaments are pulled past one another• muscle continues to shortenmuscle continues to shorten
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Actin and Actin and Myosin Myosin
InteractionsInteractions
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Fig. 39-11, p. 839
Acetylcholine (released by motor neuron) combines with receptors on muscle fiber, causing depolarization and an action potential.
ATP binding site
Myosin filament
ATP
P ADPTropomyosin
Ca
Actin filament
Binding site Troponin
Ca2+ bind to troponin, causing change in shape. Troponin pushes tropomyosin away, exposing binding sites on actin filaments.
ATP is split. Myosin head, now cocked, binds to exposed binding site, forming cross bridge.
43
Ca2+
Ca2+
Ca2+
Ca2+
Ca2+
Ca2+ Ca2+
1
2 Impulse spreads through T tubules, stimulating Ca2+ release from sarcoplasmic reticulum.
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Fig. 39-11, p. 839
Pi is released.Actin-myosin complex binds ATP, and myosin detaches from actin.
ADP
Cross bridge flexes, and actin filament is pulled toward center of sarcomere. This movement is the power stroke. ADP is released.
If Ca2+ is available
7
ATP
6
5
ADPCa2+
Ca2+Ca2+P
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Learning Objective 10Learning Objective 10
• Compare the roles of Compare the roles of glycogenglycogen, , creatine creatine phosphatephosphate, and , and ATPATP in providing energy in providing energy for muscle contractionfor muscle contraction
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Energy for Muscle ContractionEnergy for Muscle Contraction
• ATP ATP • immediate energy source for muscle contractionimmediate energy source for muscle contraction• ATP hydrolysis provides energy to “cock” myosinATP hydrolysis provides energy to “cock” myosin
• Creatine phosphateCreatine phosphate • intermediate energy storage compoundintermediate energy storage compound•
• GlycogenGlycogen • fuel stored in muscle fibersfuel stored in muscle fibers
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KEY CONCEPTSKEY CONCEPTS
• During muscle contraction, energy from During muscle contraction, energy from ATP is used to slide muscle filaments so ATP is used to slide muscle filaments so that the muscle shortensthat the muscle shortens
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Learning Objective 11Learning Objective 11
• How do muscles work, including factors How do muscles work, including factors that influence that influence contractioncontraction??
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Muscle ContractionMuscle Contraction
• ContractionContraction of a whole muscle depends on of a whole muscle depends on(1) number of muscle fibers contracting(1) number of muscle fibers contracting
(2) tension developed by each fiber(2) tension developed by each fiber
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A Motor UnitA Motor Unit
• All skeletal muscle fibers stimulated by a All skeletal muscle fibers stimulated by a single motor neuron single motor neuron
• Motor recruitmentMotor recruitment • messages from brain activate motor neurons messages from brain activate motor neurons
• The more motor units The more motor units recruited, recruited, • the stronger the contractionsthe stronger the contractions
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A Motor UnitA Motor Unit
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Fig. 39-12a, p. 840
Cross section of spinal cord
Neuromuscular junctions
(a) The motor unit illustrated here shows only a single motor neuron fiber.
Spinal nerve Muscle
Motor nerve fiber
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Fig. 39-12b, p. 840
Neuromuscular junction
Motor nerve fiber
Part of muscle fiber 10 µm
(b) SEM of some of the fibers in a motor unit. Note how neurons branch to innervate all muscle fibers in the motor unit.
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Skeletal Muscle ResponsesSkeletal Muscle Responses• Simple twitchSimple twitch
• activated by brief electrical stimulusactivated by brief electrical stimulus
• SummationSummation • 2 twitches add together when 22 twitches add together when 2ndnd stimulus is stimulus is
received before 1received before 1stst contraction is complete contraction is complete
• TetanusTetanus • smooth, sustained contraction smooth, sustained contraction • series of separate stimuli timed close togetherseries of separate stimuli timed close together
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Summation and TetanusSummation and Tetanus
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Muscle ToneMuscle Tone
• State of partial contractionState of partial contraction• characteristic of musclescharacteristic of muscles
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Explore muscle action, structure, Explore muscle action, structure, and contraction as well as and contraction as well as summation and tetanus by summation and tetanus by clicking on the figures in clicking on the figures in
ThomsonNOW.ThomsonNOW.
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KEY CONCEPTSKEY CONCEPTS
• Muscles contract; in most animals they Muscles contract; in most animals they move body parts by pulling on themmove body parts by pulling on them
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Learning Objective 12Learning Objective 12
• Compare the structures and functions of Compare the structures and functions of the three types of the three types of skeletal muscle fibersskeletal muscle fibers
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Slow-Oxidative FibersSlow-Oxidative Fibers
• Specialized for endurance activitiesSpecialized for endurance activities
• Contract slowly, fatigue slowly, rich in Contract slowly, fatigue slowly, rich in mitochondria, obtain most of their ATP mitochondria, obtain most of their ATP from aerobic respirationfrom aerobic respiration
• Red color due to high Red color due to high myoglobinmyoglobin content content• red pigment that stores oxygenred pigment that stores oxygen
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Fast-Oxidative FibersFast-Oxidative Fibers
• Specialized for rapid response Specialized for rapid response
• Contract fast, have an intermediate rate of Contract fast, have an intermediate rate of fatigue, rich in mitochondria, obtain most fatigue, rich in mitochondria, obtain most of their ATP from aerobic respiration of their ATP from aerobic respiration
• Red color due to high Red color due to high myoglobinmyoglobin content content
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Fast-Glycolytic FibersFast-Glycolytic Fibers
• Generate high power for a brief periodGenerate high power for a brief period
• Contract fast, fatigue quickly, have few Contract fast, fatigue quickly, have few mitochondria, use glycolysis as a major mitochondria, use glycolysis as a major pathway for ATP synthesis pathway for ATP synthesis
• White fibers White fibers