Comparison of skeletal and smooth muscles (1)
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Jan 24, 2017
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COMPARISON OF SMOOTH COMPARISON OF SMOOTH
MUSCLE CONTRACTION AND MUSCLE CONTRACTION AND
SKELETAL MUSCLE SKELETAL MUSCLE
CONTRACTIONCONTRACTION
Detailed comparisonDetailed comparison
MUSCLE CONTRACTION AND MUSCLE CONTRACTION AND
SKELETAL MUSCLE SKELETAL MUSCLE
CONTRACTIONCONTRACTION
Detailed comparisonDetailed comparison
ENERGY REQUIRED TO SUSTAIN ENERGY REQUIRED TO SUSTAIN
SMOOTH MUSCLE CONTRACTIONSMOOTH MUSCLE CONTRACTION
Frequency is 1/10 to 1/300 energy is Frequency is 1/10 to 1/300 energy is
required to sustain the same tension of required to sustain the same tension of
contraction is smooth muscle as in contraction is smooth muscle as in
skeletal muscleskeletal muscle
Only one ATP is required for whole cycleOnly one ATP is required for whole cycle
SMOOTH MUSCLE CONTRACTIONSMOOTH MUSCLE CONTRACTION
Frequency is 1/10 to 1/300 energy is Frequency is 1/10 to 1/300 energy is
required to sustain the same tension of required to sustain the same tension of
contraction is smooth muscle as in contraction is smooth muscle as in
skeletal muscleskeletal muscle
Only one ATP is required for whole cycleOnly one ATP is required for whole cycle
Skeletal musclesSkeletal muscles
Rapid contraction and Rapid contraction and
relaxation in skeletal relaxation in skeletal
musclesmuscles
Rapidity of cyclingRapidity of cycling
Fraction of time is greaterFraction of time is greater
Greater activity of Greater activity of
ATPaseATPase
Rapid cycling and Rapid cycling and
degradationdegradation
Smooth musclesSmooth muscles
Smooth muscle Smooth muscle
contraction is prolongedcontraction is prolonged
Slowness of cyclingSlowness of cycling
\\
Much much slowerMuch much slower
Far less ATPase activityFar less ATPase activity
Slow cyclingSlow cycling
COMPARISON OF SMOOTH MUSCLE COMPARISON OF SMOOTH MUSCLE
CONTRACTION AND SKELETAL MUSCLE CONTRACTION AND SKELETAL MUSCLE
CONTRACTIONCONTRACTION
Rapid contraction and Rapid contraction and
relaxation in skeletal relaxation in skeletal
musclesmuscles
Rapidity of cyclingRapidity of cycling
Fraction of time is greaterFraction of time is greater
Greater activity of Greater activity of
ATPaseATPase
Rapid cycling and Rapid cycling and
degradationdegradation
Smooth musclesSmooth muscles
Smooth muscle Smooth muscle
contraction is prolongedcontraction is prolonged
Slowness of cyclingSlowness of cycling
\\
Much much slowerMuch much slower
Far less ATPase activityFar less ATPase activity
Slow cyclingSlow cycling
COMPARISON OF SMOOTH MUSCLE COMPARISON OF SMOOTH MUSCLE
CONTRACTION AND SKELETAL MUSCLE CONTRACTION AND SKELETAL MUSCLE
CONTRACTIONCONTRACTION
Energy required to sustain Energy required to sustain
smooth muscle contractionsmooth muscle contraction
Skeletal musclesSkeletal muscles
1/101/10
Smooth musclesSmooth muscles
1/3001/300
One ATP for one cycleOne ATP for one cycle
smooth muscle contractionsmooth muscle contraction
Skeletal musclesSkeletal muscles
1/101/10
Smooth musclesSmooth muscles
1/3001/300
One ATP for one cycleOne ATP for one cycle
SLOWNESS OF ONSET OF SLOWNESS OF ONSET OF
CONTRACTION AND RELAXATION OF CONTRACTION AND RELAXATION OF
THE SMOOTH MUSCLE TISSUETHE SMOOTH MUSCLE TISSUE
Time for contraction after excitationTime for contraction after excitation
50-100ms50-100ms
Reaches full contraction afterReaches full contraction after
0.5s0.5s
Decline in contractile forceDecline in contractile force
1-2s1-2s
Total contraction time Total contraction time
1-3s1-3s
CONTRACTION AND RELAXATION OF CONTRACTION AND RELAXATION OF
THE SMOOTH MUSCLE TISSUETHE SMOOTH MUSCLE TISSUE
Time for contraction after excitationTime for contraction after excitation
50-100ms50-100ms
Reaches full contraction afterReaches full contraction after
0.5s0.5s
Decline in contractile forceDecline in contractile force
1-2s1-2s
Total contraction time Total contraction time
1-3s1-3s
SLOWNESS OF ONSET OF SLOWNESS OF ONSET OF
CONTRACTION AND RELAXATION OF CONTRACTION AND RELAXATION OF
THE SMOOTH MUSCLE TISSUETHE SMOOTH MUSCLE TISSUE
3o times long in comparison of skeletal 3o times long in comparison of skeletal
muscle fibersmuscle fibers
Reasons for tonic and prolonged Reasons for tonic and prolonged
contractioncontraction
Slow attachment and detachment of cross Slow attachment and detachment of cross
bridgesbridges
Response to calcium ions is much slowerResponse to calcium ions is much slower
CONTRACTION AND RELAXATION OF CONTRACTION AND RELAXATION OF
THE SMOOTH MUSCLE TISSUETHE SMOOTH MUSCLE TISSUE
3o times long in comparison of skeletal 3o times long in comparison of skeletal
muscle fibersmuscle fibers
Reasons for tonic and prolonged Reasons for tonic and prolonged
contractioncontraction
Slow attachment and detachment of cross Slow attachment and detachment of cross
bridgesbridges
Response to calcium ions is much slowerResponse to calcium ions is much slower
FORCE OF MUSCLE FORCE OF MUSCLE
CONTRACTIONCONTRACTION
Few myosin filamentsFew myosin filaments
Maximum force of contractionMaximum force of contraction
For skeletal musclesFor skeletal muscles
3-4kg/cm2 cross sectional area3-4kg/cm2 cross sectional area
For smooth musclesFor smooth muscles
4-6kg/cm2 cross sectional area4-6kg/cm2 cross sectional area
Prolonged period of attachment in Prolonged period of attachment in
contractioncontraction
CONTRACTIONCONTRACTION
Few myosin filamentsFew myosin filaments
Maximum force of contractionMaximum force of contraction
For skeletal musclesFor skeletal muscles
3-4kg/cm2 cross sectional area3-4kg/cm2 cross sectional area
For smooth musclesFor smooth muscles
4-6kg/cm2 cross sectional area4-6kg/cm2 cross sectional area
Prolonged period of attachment in Prolonged period of attachment in
contractioncontraction
LATCH MECHANISMLATCH MECHANISM
Consumption of less energy for Consumption of less energy for
maintenance of contraction as 1/300maintenance of contraction as 1/300
Prolonged tonic contractionProlonged tonic contraction
Cross bridges phosphorylationCross bridges phosphorylation
ATP consumption rates fallATP consumption rates fall
Little excitatory signalsLittle excitatory signals
Hormonal signalsHormonal signals
Consumption of less energy for Consumption of less energy for
maintenance of contraction as 1/300maintenance of contraction as 1/300
Prolonged tonic contractionProlonged tonic contraction
Cross bridges phosphorylationCross bridges phosphorylation
ATP consumption rates fallATP consumption rates fall
Little excitatory signalsLittle excitatory signals
Hormonal signalsHormonal signals
STRESS-RELAXATION OF STRESS-RELAXATION OF
SMOOTH MUSCLESSMOOTH MUSCLES
Sudden increase in volume of fluid in urinary Sudden increase in volume of fluid in urinary
bladderbladder
Stretching the bladderStretching the bladder
Increase in pressureIncrease in pressure
After some time pressure comes to original levelAfter some time pressure comes to original level
SMOOTH MUSCLESSMOOTH MUSCLES
Sudden increase in volume of fluid in urinary Sudden increase in volume of fluid in urinary
bladderbladder
Stretching the bladderStretching the bladder
Increase in pressureIncrease in pressure
After some time pressure comes to original levelAfter some time pressure comes to original level
STRESS-RELAXATION OF STRESS-RELAXATION OF
SMOOTH MUSCLESSMOOTH MUSCLES
Decrease in volumeDecrease in volume
Pressure fallsPressure falls
Comes to original levelComes to original level
Maintenance of pressureMaintenance of pressure
SMOOTH MUSCLESSMOOTH MUSCLES
Decrease in volumeDecrease in volume
Pressure fallsPressure falls
Comes to original levelComes to original level
Maintenance of pressureMaintenance of pressure
DEFINATION OF STRESS DEFINATION OF STRESS
RELAXATION MECHANISMRELAXATION MECHANISM
Ability to return to nearly its original force Ability to return to nearly its original force
of contraction sec or min after it has been of contraction sec or min after it has been
elongated or shortenedelongated or shortened
Characteristics of unitary type of smooth Characteristics of unitary type of smooth
muscles of muscles of visceral type of hollow organsvisceral type of hollow organs
RELAXATION MECHANISMRELAXATION MECHANISM
Ability to return to nearly its original force Ability to return to nearly its original force
of contraction sec or min after it has been of contraction sec or min after it has been
elongated or shortenedelongated or shortened
Characteristics of unitary type of smooth Characteristics of unitary type of smooth
muscles of muscles of visceral type of hollow organsvisceral type of hollow organs
REGULATION OF CONCENTRATION REGULATION OF CONCENTRATION
BY CALCIUM IONSBY CALCIUM IONS
Initiation of stimulus for skeletal muscles Initiation of stimulus for skeletal muscles
as well as for smooth musclesas well as for smooth muscles
Rise in intracellular level of calcium ionsRise in intracellular level of calcium ions
By means of nerve stimulationBy means of nerve stimulation
Hormonal signalsHormonal signals
Stretching of fibersStretching of fibers
Sphingosine 1 phosphateSphingosine 1 phosphate
Change in chemical environment of fiberChange in chemical environment of fiber
BY CALCIUM IONSBY CALCIUM IONS
Initiation of stimulus for skeletal muscles Initiation of stimulus for skeletal muscles
as well as for smooth musclesas well as for smooth muscles
Rise in intracellular level of calcium ionsRise in intracellular level of calcium ions
By means of nerve stimulationBy means of nerve stimulation
Hormonal signalsHormonal signals
Stretching of fibersStretching of fibers
Sphingosine 1 phosphateSphingosine 1 phosphate
Change in chemical environment of fiberChange in chemical environment of fiber
REGULATION OF CONCENTRATION REGULATION OF CONCENTRATION
BY CALCIUM IONSBY CALCIUM IONS
Regulatory proteinRegulatory protein
CalmodulinCalmodulin
Similar to troponinSimilar to troponin
Manner of initation of contraction is Manner of initation of contraction is
differentdifferent
BY CALCIUM IONSBY CALCIUM IONS
Regulatory proteinRegulatory protein
CalmodulinCalmodulin
Similar to troponinSimilar to troponin
Manner of initation of contraction is Manner of initation of contraction is
differentdifferent
SEQUENCE IOF EVENTSSEQUENCE IOF EVENTS
Binding of neurotransmitterBinding of neurotransmitter
Influx of calcium ionsInflux of calcium ions
Binding of calcium ions with calmodulinBinding of calcium ions with calmodulin
Calmodulin-calcium combination joins with Calmodulin-calcium combination joins with
myosin kinasemyosin kinase
Binding of neurotransmitterBinding of neurotransmitter
Influx of calcium ionsInflux of calcium ions
Binding of calcium ions with calmodulinBinding of calcium ions with calmodulin
Calmodulin-calcium combination joins with Calmodulin-calcium combination joins with
myosin kinasemyosin kinase
SEQUENCE IOF EVENTSSEQUENCE IOF EVENTS
Myosin kinaseMyosin kinase
A phosphorylating enzymeA phosphorylating enzyme
One light chain of myosin head is called One light chain of myosin head is called
regulatory chainregulatory chain
Phosphorylation of myosinPhosphorylation of myosin
Binding of actin to myosin due to myosin Binding of actin to myosin due to myosin
ATPaseATPase
Cross bridges formation occursCross bridges formation occurs
Myosin kinaseMyosin kinase
A phosphorylating enzymeA phosphorylating enzyme
One light chain of myosin head is called One light chain of myosin head is called
regulatory chainregulatory chain
Phosphorylation of myosinPhosphorylation of myosin
Binding of actin to myosin due to myosin Binding of actin to myosin due to myosin
ATPaseATPase
Cross bridges formation occursCross bridges formation occurs
SEQUENCE IOF EVENTSSEQUENCE IOF EVENTS
ContractionContraction
Dephosphorylation of myosinDephosphorylation of myosin
RelaxationRelaxation
Sustained contraction (latch mechanism)Sustained contraction (latch mechanism)
ContractionContraction
Dephosphorylation of myosinDephosphorylation of myosin
RelaxationRelaxation
Sustained contraction (latch mechanism)Sustained contraction (latch mechanism)
ROLE OF MYOSIN ROLE OF MYOSIN
PHOSPHATASEPHOSPHATASE
Calcium levels falls below critical levelCalcium levels falls below critical level
Cessation of contractionCessation of contraction
Located in fluids of smooth musclesLocated in fluids of smooth muscles
Splits phosphate from regulatory chainSplits phosphate from regulatory chain
Cycling stopsCycling stops
PHOSPHATASEPHOSPHATASE
Calcium levels falls below critical levelCalcium levels falls below critical level
Cessation of contractionCessation of contraction
Located in fluids of smooth musclesLocated in fluids of smooth muscles
Splits phosphate from regulatory chainSplits phosphate from regulatory chain
Cycling stopsCycling stops
POSSIBLE MECHANISM FOR POSSIBLE MECHANISM FOR
REGULATION OF THE LATCH REGULATION OF THE LATCH
MECHANISMMECHANISM
Activation of myosin kinase and myosin Activation of myosin kinase and myosin
phosphatasephosphatase
Cycling frequency occursCycling frequency occurs
Velocity of contraction is greatVelocity of contraction is great
Activation of enzyme decreasesActivation of enzyme decreases
Low cycling decreasesLow cycling decreases
Deactivation of both enzymesDeactivation of both enzymes
Permit myosin heads to remain attached to actin Permit myosin heads to remain attached to actin
filamentfilament
REGULATION OF THE LATCH REGULATION OF THE LATCH
MECHANISMMECHANISM
Activation of myosin kinase and myosin Activation of myosin kinase and myosin
phosphatasephosphatase
Cycling frequency occursCycling frequency occurs
Velocity of contraction is greatVelocity of contraction is great
Activation of enzyme decreasesActivation of enzyme decreases
Low cycling decreasesLow cycling decreases
Deactivation of both enzymesDeactivation of both enzymes
Permit myosin heads to remain attached to actin Permit myosin heads to remain attached to actin
filamentfilament
HOW SMOOTH MUSCLES HOW SMOOTH MUSCLES
MAINTAIN CONTRATION?MAINTAIN CONTRATION?
Can produce fewer ATPCan produce fewer ATP
SR is much less developedSR is much less developed
Fewer Ca ATPase mole on its membraneFewer Ca ATPase mole on its membrane
MAINTAIN CONTRATION?MAINTAIN CONTRATION?
Can produce fewer ATPCan produce fewer ATP
SR is much less developedSR is much less developed
Fewer Ca ATPase mole on its membraneFewer Ca ATPase mole on its membrane
IMPORTANCE OF LATCH IMPORTANCE OF LATCH
MECHANISMMECHANISM
Less consumption of energyLess consumption of energy
Less time requiredLess time required
MECHANISMMECHANISM
Less consumption of energyLess consumption of energy
Less time requiredLess time required
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