Human Physio Ch. 12 Muscle Physiology
Put these events in the correct chronological sequence: 1. End-plate potentials trigger action potentials. 2. Transverse tubules convey potentials into the interior of the cell. 3. Acetylcholine binds to receptors on the motor end plate. 4. Ca2+ is released from the sarcoplasmic reticulum.
3, 1, 2, 4
Step 4 at Neuromuscular Junction stimulating a muscle fiber
4. Na+ enters muscle cell causing AP along sarcolemma
Step 2 at Neuromuscular Junction stimulating a muscle fiber
2. Ca2+ enters NMJ through voltage-gated channels
The molecular event that occurs immediately after the power stroke is the
release of ADP from the myosin.
smooth muscle
slower than skeletal muscle but can sustain contractions for longer without fatiguing
__________ muscle tissue has No striations, single central nuclei, involuntary.
smooth
The function of the titin protein is to
stabilize the position of the contractile filaments.
tetanus
state of maximal contraction =if MAP is shortened the muscle fiber does not have time to relax completely between 2 stimuli resulting in more forceful contraction //incomplete or unfused =stimulation rate of muscle fiber is not at max and fiber relaxes between stimuli //complete or fused =stimulation rate is fast enought that muscle fiber does not have time to relax, reaching max tension and staying there
sliding filament theory of contraction
states that during contraction, overlapping thick and thin filaments slide past each other in an energy-dependent manner as a result of actin-myosin crossbridge movement
Skeletal muscle structure is ______
striated
What is name given to the regularly spaced infoldings of the sarcolemma?
transverse or T tubules //allow action potentials to move rapidly from the cell surface into interior of fiber =reaches terminal cisternae simultaneously
attachment sites for myosin
M line
Myosin light protein chains
MLCK phosphorylates _____ which activates myosin ATPase. This allows crossbridge power strokes
Where do we find smooth muscle tissue?
Lines wall of hollow organs and blood vessels
autonomic innervation, paracrines and hormones
cardiac and smooth muscles controlled by
in muscle contraction Myosin heads (crossbridges) bind to
actin
Excitation also means
action potential
motor unit
composed of a group of muscle fibers and one somatic motor neuron that controls them //when SMN fires AP all muscle fibers in unit contract =finer movement recruit more motor neurons and less muscle fiber to a unit =same unit must be same fiber type >>fast twitch and slow twitch motor units =force increase by recruiting more motor units //marathon runners have slow twitch fibers //sprinters have fast twitch fibers //conversion occurs in muscles that are being trained =endurance training inc capillaries and mitochondria in muscle tissue region =increasing aerobic activity
Tropomyosin physically blocks
cross bridges
muscle tension
force created by a contracting muscle
recruitment of additional motor units
force of contraction within a skeletal muscle can be increased by //neurons with the lowest threshold control fatigue resistant slow twitch fibers =genereate minimal force //neurons with highest threshold stimulate motor units of fatigue resistant fast twitch Oxi-glyco fibers =more motor units participate in contractions, greater force generated
Myofibrils
intracellular bundles of contractile and elastic proteins
Tension is maximal when sarcomeres are at what length
normal resting
Skeletal muscle has many peripheral _____
nuclei
varies
number of muscle fibers in a motor unit
TRUE or FALSE Cardiac muscle has striations
TRUE
TRUE or FALSE Contracting muscle can only move in 1 direction
TRUE
TRUE or FALSE Myosin is an ATPase
TRUE
TRUE or FALSE Not all skeletal muscle fibers (cells) are identical
TRUE
What is an area that contains many synaptic vesicles filled with acetylcholine
Axon terminal of motor neuron
In the Triad the T-tubule brings
AP into skeletal muscle fibers
What happens when calcium binds troponin?
Tropomyosin is pulled away from the actin active site.
sarcomeres (image)
* Sarcomeres are part of the myofibrils
myofibrils (image)
*Inside muscle fibers
myofilaments
*thick and thin * myofilaments found inside the Sarcomere
Step 1 at Neuromuscular Junction stimulating a muscle fiber
1. Incoming AP (Na+) from somatic motor neuron
3 different types of skeletal muscle fibers
1. SLOW 2. INT/FAST 3. FAST
runs the length of a thick filament
A band
The cross bridge cycle is a series of molecular events that occur after excitation of the sarcolemma. What is a cross bridge?
A myosin head bound to actin
I bands, A band, central H zone
A sarcomere is divided into
A triad is composed of a T-tubule and two adjacent terminal cisternae of the sarcoplasmic reticulum. How are these components connected?
A series of proteins that control calcium release.
twitch
A single contraction-relaxation cycle is known as a
muscle fibers
A skeletal muscle is a collection of
Which of these structures would not change size during a muscle contraction? A. A band B. Sarcomere C. I band D. H zone
A. A band
Which of the following statements best describes the neuromuscular junction? Choose the best answer. A. the point of synapse between a motor neuron and the muscle fiber that it innervates B. the release of calcium from the sarcoplasmic reticulum as a result of the action potential traveling down the t-tubule C. the release of acetylcholine from the axon terminal of the motor neurons D. the act of myosin and actin sliding past each other in order to produce a contraction
A. the point of synapse between a motor neuron and the muscle fiber that it innervates
What is a structure that when bound to a ligand opens a divalent channel for the movement of both Na+ and K+
ACh receptor-channel
________ is composed of multiple globular molecules polymerized to form long chains or filaments.
Actin
Tropomyosin covers what?
Actin and myosin binding site
What is a change in membrane voltage that travels down the T-tubule to cause opening of Ca2+ channels
Action potential
ADP; rigor state
At the end of the power stroke, myosin releases ___. The cycle ends in the ___, with myosin tightly bound to actin.
The contraction cycle is triggered by the rise in ________ released from the sarcoplasmic reticulum (SR).
Ca2+
Which ion signals the beginning of skeletal muscle contraction?
Ca2+ //intracellular calcium signal =initiates muscle contraction //movement created when myosin hydrolyses ATP
power stroke
Ca2+ binding to troponin unblocks the myosin-binding sites and allows myosin to complete its
How does the process of smooth muscle contraction differ from contraction in skeletal muscle?
Ca2+ comes from the extracellular fluid as well as the SR. //smoth muscle has myosin filaments covered entirely with myosin heads surrounded by bundle of actin connected by dense bodies =has no troponin //smooth muscle operates over a range of length =found in walls of hollow organs and tubes //most skeletal muscles are attached to bone and operate over a narrow range of length //smooth muscle contracts and relaxes much more slowly than skeletal or cardiac muscle =uses less energy to generate and maintain a given amount of force >>use of ATP is lower and has fewer mitochondria >>relies more on glylolysis //smooth muscle sustains contractions for extended period of time without fatiguing =tonically contract =small spindle shaped cells with single nucleus //smooth muscle is initiated by electrical or chemical signal =skeletal muscle always begins with MAP //smooth muscle has varicosities instead of motor end plates //in smooth muscle Ca++ comes from ECF and SR =skeletal muscle is just SR //Smooth muscle has Ca++ signal that ends in MLCK and activation of ATPase.
Subjective feelings of tiredness and a desire to cease activity describes which phenomenon?
Central fatigue //pyschological fatigure first, then physical =protective mechanism at maximal exertion =ATP hydrolysis creates low pH environment is possibly cause for fatigue
Define Sarcomere:
Contractile unit of a myofibril
Which enzyme catabolizes the phosphorylation of ADP by creatine phosphate?
Creatine kinase
When does cross bridge cycling end?
Cross bridge cycling ends when sufficient calcium has been actively transported back into the sarcoplasmic reticulum to allow calcium to unbind from troponin.
Smooth muscle cells lack which protein(s)? A. myosin only B tropomyosin only C. troponin and tropomyosin D. troponin only E. actin only
D. troponin only
Myosin phosphatase
During relaxation, Ca2+ is pumped out of the cytosine, and myosin light chains are dephosphorylated by _____
Ca2+-ATPase
During relaxation, the sarcoplasmic reticulum uses a ___ to pump Ca2+ back into its lumen
Excitation-contraction coupling is a series of events that occur after the events of the neuromuscular junction have transpired. The term excitation refers to which step in the process?
Excitation, in this case, refers to the propagation of action potentials along the sarcolemma. //sarcolemma is the cell membrane of muscle fiber =cytoplasm is sarcoplasm =myofibrils are intracellular structures >>highly organized bundles of contractile and elastic proteins that carry out the work of contraction =Sarcoplasm reticulum wraps around myofribrils >>concentrates and secretes Ca++ with help from Ca-ATPase =Ca release creates signal in contraction
TRUE or FALSE Tropomyosin is a regulatory protein and an ATPase
FALSE It is only a regulatory protein
antagonistic muscle
Flexor-extensor pairs are examples of
_____ and ______ are antagonistic pairs which allow force in two opposite directions
Flexors and extensors
Define Tension:
Force exerted on an object by a contracting muscle
FAST skeletal muscle fibers are Oxidative, Oxidative-Glycolytic, or Glycolytic?
Glycolytic
thick filaments only
H zone
thin filaments only
I bands
Myogenic contraction
In _____, stretch on the cell depo lorises it and opens membrane Ca2+ channels
Calmodulin; myosin light chain kinase(MLCK)
In smooth muscle contractions, Ca2+ binds to _____ and activates _____
Is Cardiac muscle voluntary or involuntary?
Involuntary
How is the energy released by ATP hydrolysis used during the contractile cycle in skeletal muscle?
It causes rotation of the myosin head back to 90°, thus "cocking" it.
AP(neuron)---(_____)--> AP (muscle) -----(Ca2+ released)---- >______ (muscle)
NMJ (Neuromuscular Junction) Contraction
What is an area of muscle fiber membrane that is in close association with the axon terminal of the motor neuron, contain receptors for acetylcholine
Motor end plate
phosphocreatine
Muscle fibers store energy for contraction in
Define Fatigue:
Muscle is no longer able to generate or sustain force
_______ filaments bind to and move _____ filaments, causing ____ ______ in skeletal, smooth, and cardiac muscles
Myosin actin muscle contraction
crossbridges
Myosin binds to actin, creating ____ between the thick and thin filaments
Myosin ATPase
Myosin converts energy from ATP into motion. ____ hydrolyzes ATP to ADP and Pi.
NMJ stands for
Neuromuscular Junction
_______ influence the contraction of muscles by causing changes in muscle membrane potential
Neurons
Z disks and the filaments between them
One sarcomere is composed of two
Define Motor unit:
One somatic motor neuron and all the skeletal muscle fibers (cells) it controls.
SLOW skeletal muscle fibers are Oxidative, Oxidative-Glycolytic, or Glycolytic?
Oxidative
INT/FAST skeletal muscle fibers are Oxidative, Oxidative-Glycolytic, or Glycolytic?
Oxidative-Glycolytic
________ is the backup energy molecule that can be rapidly converted to ATP in active skeletal muscle.
Phosphocreatine //transferred to ADP via creatine kinase aka creatine phosphokinase =muscle cells contain large amounts of this enzyme
Sarcolemma is the
Plasma membrane of muscle cell
What is it called when myosin crossbridges attach to actin filaments and pull them toward the middle of the sarcomere?
Power stroke
Ca2+-ATPase
Relaxation occurs when Ca2+ is pumped back into the SR by a
In the Triad extensive ____ assures that Ca2+ ions can readily diffuse to all troponin sites
SR
In the Triad a wave of depolarization stimulates
SR to release calcium ions
Define Muscle twitch:
Single cycle of contraction - relaxation in skeletal muscle fibers
1. fast-twitch glycolytic fibers -fatigue faster do to inc hydrolysis of ATP and inc pH - acidosis 2. fast-twitch oxidative-glycolytic fibers 3. slow-twitch (oxidative) fibers
Skeletal muscle fibers can be classified on the basis of their speed of contraction and resistance to fatigue into what 3 different twitch fibers
tendons
Skeletal muscles are usually attached to bone by
IP3 receptor channel
Smooth muscle sarcoplasmic reticulum ahas both RyR Ca2+ release channels and ______. calcium also enters the cell from the extra cellular fluid
Define Tetanus:
Sustained contraction/fusion of individual muscle twitches
Triad
T-Tubules plus the two end of the SR
Cardiac muscle has a central nucleus
TRUE
Sliding Filament Mechanism
The explanation of how thick and thin filaments slide relative to one another during striated muscle contraction to decrease sarcomere length
How does the myosin head obtain the energy required for activation?
The energy comes from the hydrolysis of ATP.
Sodium and potassium ions do not diffuse in equal numbers through ligand-gated cation channels. Why?
The inside surface of the sarcolemma is negatively charged compared to the outside surface. Sodium ions diffuse inward along favorable chemical and electrical gradients.
What structure is the functional unit of contraction in a skeletal muscle fiber?
The sarcomere
Which protein spans the distance from one Z disk to the M line?
Titin
troponin
To initiate contraction, Ca2+ binds to //troponin C binds reversibly to Ca =pulls tropomyosin completely away from actin's myosin-binding site
T-tubule is the
Tunnel of sarcolemma
DHP receptors; RyR
Voltage-sensing Ca2+ channels called ___ in the t-tubules open ___ Ca2+ release channels in the sarcoplasmic reticulum
Calcium sensitivity
What smooth muscle can be altered by changing myosin phosphatase activity.?
power stroke
When myosin releases Pi, the myosin head moves in the
attachment sites for actin
Z disks
in contraction, ________ are pulled closer together
Z-lines
T-tubules; sarcoplasmic reticulum
___ allow action potentials to move rapidly into the interior of the fiber and release calcium from the ____
Compared to skeletal muscle, contraction of smooth muscle cells is
a slower response to a stimulus and sustained without fatigue.
same fiber type
all fibers in a single unit are of the
series elastic elements
allow the fibers to maintain constant length even though the sarcomeres are shortening and creating tension (isometric contractions)
latent period
between the end of the muscle action potential and the beginning of muscle tension development represents the time required for Ca2+ release and binding to troponin
flexors
bring bones closer together
In all three types of muscle, myosin and actin are regulated by the availability of _____ ______
calcium ions
In smooth muscle cells, Ca2+ binds to ________ which activates the enzyme ________ to phosphorylate myosin and increase force.
calmodulin, myosin light chain kinase
The binding of acetylcholine to its receptor at the neuromuscular junction causes the opening of a
channel for both Na+ and K+.
Sodium will ____polarize
depolarize
As ATP binds to the myosin head at the beginning of a muscle contraction cycle, the myosin head immediately
detaches from actin
Action potentials travel the length of the axons of motor neurons to the axon terminals. These motor neurons __________.
extend from the brain or spinal cord to the sarcolemma of a skeletal muscle fiber
Muscles contain many muscle
fibers
smooth muscle
has less myosin than skeletal muscle
titin and nebulin
hold thick and thin filaments in position //titin stabalizes position of contractile filaments =elasticity returns stretched muscle to their resting length //nebulin aligns the actin filaments of sarcomere
12-15
in smooth muscle, each myosin is associated with about how many actin molecules?
multi-unit smooth muscle
individual muscle fibers are stimulated independently //not linked together by gap junctions =not linked electrically =each muscle cell is independent //each muscle cell is assosciatted with axon terminal or varicosity =allows fine control of contractions =selective activation on individual muscle cells =increasing force means recruiting more fibers //iris and cilliary body of eye
Cardiac muscle has ______ disks
intercalated
muscle fibers
large cells with many nuclei in skeletal muscle
Creatine is produced by the
liver and kidneys
thin filaments
made mostly of actin
thick filaments
made of myosin
Changes in the ____ ______ of muscles are linked to internal changes in calcium release
membrane potential
somatic motor neurons
skeletal muscles controlled by
insertion
more distal or mobile attachment
extensors
move bones away from each other
Three types of muscle tissue
skeletal, cardiac, smooth
myofilament is a ______ protein
muscle
when you see Sarco this refers to
muscle (fleshy)
motion, force, and heat
muscles generate
tonic smooth muscles
muscles that are continuously contracted //always contains some level of tone =esophageal an urinary sphincters >>relax only when necessaryto allow material to enter or leave
Muscle fibers contain many
myofibrils
Sarcomeres contain many
myofilaments
Contraction of skeletal muscle causes movement of
skeleton
A motor unit consists of
one neuron and all the skeletal muscle fibers it controls.
Contraction of smooth muscle tissue pushes contents through _____
organs Example: small intestine
myoglobin
oxygen-binding pigment that transfers oxygen to the interior to reach mitochondria of the muscle fiber //oxidative muscle fibers have this =also small diameter fibers =myoglobin reaches mitochondria faste =thus more myoglobin and more capillaries bring in blood =better supply of O2 and ATP phosphorylation //glycolytic fibers lack myoglobin content and contrasts oxidative =relies on anaerobic glycolysis for ATP synthesis and fatigues rapidly
tropomyosin
partially blocks the myosin-binding site on actin in relaxed muscle
The function of transverse tubules is to
rapidly conduct action potentials to the interior of the muscle fiber.
ADP is combined with Pi from
phosphocreatine *Phosphocreatine stores are replenished at rest
muscle fatigue
reversible condition in which a muscle is no longer able to generate or sustain the expected power output //arises from excitation contraction failure in the muscle fiber rather than from failure of control neurons or neuromuscular transmission
Myofibrils contain many
sarcomeres
Contraction causes sarcomeres to
shorten
When a muscle contracts, it gets longer or shorter?
shortens *This pulls tendons which move bone at joint
excitation-contraction coupling
somatic motor neuron re- leases ACh, which initiates a skeletal muscle action potential that leads to contraction
When a skeletal muscle cell contracts and the muscle shortens,
some myosin heads are forming crossbridges as others are releasing them.
intercalated disks
structure that connects cardiac muscle cells (ONLY FOUND IN HEART)
Skeletal muscle is attached to bones by
tendons //lever fulcrum system where fulcrum is positioned at one end of the lever =requires large amounts of force to move/resist a small load =advantage of this is that it maximizes mobility and speed >>making for much larger movements at the hand >>speed of contraction at insertion point is amplified at the hand =lever fulcrum system amplifies distance load is moved and speed at which movement takes place //contraction is fastest when the load on the muscle is zero
Cardiac heart muscle pumps blood through
the body
origin
the end of the muscle attached closest to the trunk or to the more stationary bone
Acetylcholine binds to its receptor in the sarcolemma and triggers __________.
the opening of ligand-gated cation channels
Where does calcium bind?
the regulatory protein troponin
After death, when metabolism stops, in which step of the contractile cycle must skeletal muscles remain?
the rigor state
The H zone contains
thick filaments.
The I band contains
thin filaments only.
The two contractile protein are
thin----> actin thick ----> myosin
skeletal, cardiac and smooth
three types of muscles
Contraction occurs when Ca2+ ions bind to ______ and the complex pulls ______ away from the cross-bridge binding site *Myosin can now bind actin
troponin tropomyosin *Myosin can now bind actin
Calcium, released by the sarcoplasmic reticulum, binds to ________ to move the ________, which allows actin to form a high-force crossbridge with myosin.
troponin C, tropomyosin
Two regulatory proteins are
troponin and tropomyosin
Relative to skeletal muscle, smooth muscle
uses less energy to generate a given amount of force, can sustain contractile force without fatigue and uses calcium from the sarcoplasmic reticulum and extracellular space.
Is Skeletal muscle voluntary or involuntary?
voluntary
load
weight or force that opposes contraction of a muscle
Single-unit smooth muscle
what muscle contracts as a single unit when depolarizations pass from cell to cell through gap junctions //connected through gap junctions =aka unitary smooth muscle //aka visceral smooth muscle =forms walls of internal organs -intestinal tract //amount of calcium that enters cell determines force of contraction
smooth muscle
what muscle lacks troponin?
some smooth and cardiac
what muscles are autorhythmic and contract spontaneously
phasic muscles
what muscles usually relaxed or cycle through contractions //phasic smooth muscles =wall of the lower esophagus >>contracts only when food passes through it -cycle rhythmically through contraction and relaxation
Which fibers fatigue sooner? A. slow-twitch fibers B. fast-twitch fibers
B. fast-twitch fibers
Step 3 at Neuromuscular Junction stimulating a muscle fiber
3. ACh release from axon terminal, diffuses across synapse, binds to receptors on motor end plate
Which of the following is the most direct cause of muscle relaxation? Choose the best answer. A. Ca2+ unbinds from troponin, which results in tropomyosin re-covering myosin binding sites. B. The voltage created along the t-tubule fades and the muscle fiber membrane returns to a resting potential value. C. The cytoplasm of the muscle fiber exhausts all of its available ATP. D. The delivery of action potentials from the motor neuron stops.
A. Ca2+ unbinds from troponin, which results in tropomyosin re-covering myosin binding sites.
Calcium entry into the axon terminal triggers which of the following events? A. Synaptic vesicles fuse to the plasma membrane of the axon terminal and release acetylcholine. B. Cation channels open and sodium ions enter the axon terminal while potassium ions exit the axon terminal. C. Acetylcholine binds to its receptor. D. Acetylcholine is released into the cleft by active transporters in the plasma membrane of the axon terminal.
A. Synaptic vesicles fuse to the plasma membrane of the axon terminal and release acetylcholine.
Match the structures with the accurate description. A. muscle fiber B. fascicle C. sarcolemma D. myofibril E. t-tubules a single muscle cell
A. muscle fiber
______ may be used up faster than it can be created through cellular respiration
ATP
After a power stroke, the myosin head must detach from actin before another power stroke can occur. What causes cross bridge detachment?
ATP binds to the myosin head.
Which of the following best describes the contraction phase of the excitation-contraction coupling reaction? Choose the best answer. A. An action potential travels down the axon of a motor neuron in order to release acetylcholine onto the motor end plate. B. Actin and myosin filaments slide past each other to shorten the sarcomere, bringing Z disks closer together. C. An action potential travels down the t-tubule in order to release Ca2+ from the sarcoplasmic reticulum. D. Actin pushes on myosin to shorten its length, thereby shortening the muscle.
B. Actin and myosin filaments slide past each other to shorten the sarcomere, bringing Z disks closer together.
Which of the following best summarizes the events of excitation-contraction coupling? Choose the best answer. A. An acetylcholine signal from the motor neuron is converted into an electrical signal in the muscle fiber. B. Muscle action potentials initiate calcium signals that activate a contraction-relaxation cycle. C. The actin filament slides towards the sarcomere and the muscle contracts. D. Cross-bridges release and the muscle relaxes.
B. Muscle action potentials initiate calcium signals that activate a contraction-relaxation cycle.
Which is the smallest structure? A. Muscle fiber B. Myosin C. Myofibril D. Myofilament
B. Myosin
Which loss of function would occur if you introduced a chemical that functioned as an inhibitor of the ryanodine receptor channel? Choose the best answer. A. Na+ ions would not be able to flow into the muscle cell in order to depolarize it B. Myosin would not be able to bind to actin in order to cause shortening of the sarcomere C. Ca2+ ions would not be actively pumped back into the sarcoplasmic reticulum D. The axon terminal of the motor neuron would not release acetylcholine
B. Myosin would not be able to bind to actin in order to cause shortening of the sarcomere
Match the structures with the accurate description. A. muscle fiber B. fascicle C. sarcolemma D. myofibril E. t-tubules a bundle of adjacent muscle cells
B. fascicle
Match from the following list. A. A band B. I band C. Z disk D. H zone E. M line The structures that serve as the attachment site for the thin filaments and mark the boundaries for one sarcomere.
C. Z disk
Sarcoplasmic Reticulum (SR) stores
Ca2+ ions
Calcium ions couple excitation of a skeletal muscle fiber to contraction of the fiber. Where are calcium ions stored within the fiber?
Calcium ions are stored in the sarcoplasmic reticulum.
What specific event triggers the uncovering of the myosin binding site on actin?
Calcium ions bind to troponin and change its shape.
Which of the following would cause muscle relaxation to occur?
Calcium ions pumped into the SR
Which of the following is most directly responsible for the coupling of excitation to contraction of skeletal muscle fibers?
Calcium ions. contraction //ACh is released into synapse from NMJ =ACh binds to AChR on MEP =depol happens channel opens =NA and K come in =depol creates EPP that always reaches threshold and MAP =MAP depol reaches L-type calcium channels in Ttubules causing release of Ca from SR's ryanodine receptors =Free Ca binds to troponin =tropomyosin moves out and reveals actin myosin binding site = myosin power stroke Relaxation //calcium must be removed from cytosol =SR pumps Ca back into lumen using Ca-ATPase =disequilibrium of bound and unbound Ca occurs =Ca releases from tropnin =tropmyosin slide back to block binding sate =crossbridges release and muscle fiber relaxes with help of elastic fibers
Excitation of the sarcolemma is coupled or linked to the contraction of a skeletal muscle fiber. What specific event initiates the contraction?
Calcium release from the sarcoplasmic reticulum initiates the contraction
Action potential propagation in a skeletal muscle fiber ceases when acetylcholine is removed from the synaptic cleft. Which of the following mechanisms ensures a rapid and efficient removal of acetylcholine? A. Acetylcholine is transported into the postsynaptic neuron by receptor-mediated endocytosis. B. Acetylcholine diffuses away from the cleft. C. Acetylcholine is transported back into the axon terminal by a reuptake mechanism. D. Acetylcholine is degraded by acetylcholinesterase
D. Acetylcholine is degraded by acetylcholinesterase
The neuromuscular junction is a well-studied example of a chemical synapse. Which of the following statements describes a critical event that occurs at the neuromuscular junction? A. Acetylcholine is released and moves across the synaptic cleft bound to a transport protein. B. When the action potential reaches the end of the axon terminal, voltage-gated sodium channels open and sodium ions diffuse into the terminal. C. Acetylcholine binds to its receptor in the junctional folds of the sarcolemma. Its receptor is linked to a G protein. D. Acetylcholine is released by axon terminals of the motor neuron.
D. Acetylcholine is released by axon terminals of the motor neuron.
Which of the following best describes the role of calcium (Ca2+) in the excitation-contraction coupling reaction? Choose the best answer. A. Ca2+ gives the myosin heads the energy necessary for the power stroke. B. Ca2+ binds to specific receptors which control the release of ATP into the cytoplasm of the muscle fiber. C. Ca2+ will bind directly to tropomyosin, resulting in a conformational shift which reveals the binding sites for myosin on actin. D. Ca2+ will bind to troponin, which leads to a conformational shift in tropomyosin, allowing for actin and myosin to attach.
D. Ca2+ will bind to troponin, which leads to a conformational shift in tropomyosin, allowing for actin and myosin to attach.
Which of the following structures is/are necessary to initiate the muscle action potential? Select all that apply. A. actin B. t-tubule C. tropomyosin D. motor end plate E. muscle fiber F. troponin G. acetylcholine H. calcium I. ACh receptor-channels J. myosin K. ryanodine receptor L. Ca2+-ATPase M. motor neuron
D. motor end plate E. muscle fiber G. acetylcholine I. ACh receptor-channels M. motor neuron
What is the relationship between the number of motor neurons recruited and the number of skeletal muscle fibers innervated?
Typically, hundreds of skeletal muscle fibers are innervated by a single motor neuron //satellite cells lie outside muscle fiber membrane =activate and differentiate into muscle hen needed form muscle growth or repair
Myosin head rotates on its hinge, sliding __________ past it (powerstroke)
actin filaments
isotonic contraction
creates force as the muscle shortens and moves a load //any contraction that creates force and moves a load //lengthening contraction or eccentric contraction =when you put weight down bending at the elbow -leads to muscle delayed muscle soreness //force created without moving anything is isometric contractions
isometric contraction
creates force without moving a load //how you ask? =elastic fibers in tendons and connective tissue that attach muscle to bone and between muscle fibers =all behave collectively as if they were connected to contractile elements on muscle >>called series elastic elements >>when sarcomeres shorten in isometric contraction elastic elements stretch help fiber maintain constant length >>once elastic elements are stretched and force generated by sarcomeres equal load, muscle shortens and isotonic contraction occurs.
skeletal and cardiac
striated muscles
