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Comparative Vertebrate Physiology

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Comparative Vertebrate Physiology Smooth and cardiac muscle Smooth muscle Characteristics Types of smooth muscle Single unit (visceral) occur in layers gap junctions ... – PowerPoint PPT presentation

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Title: Comparative Vertebrate Physiology


1
Comparative Vertebrate Physiology
  • Smooth and cardiac muscle

2
Smooth muscle
  • Characteristics
  • lack striations
  • uninucleate
  • occurs in layers

3
Characteristics
Contracts uniquely because
  • T tubules absent (SR touches sarcolemma)
  • poorly develop SR (extracellular Ca)
  • myosin, actin present lacks troponin

4
Types of smooth muscle
  • Single unit (visceral)
  • occur in layers
  • gap junctions (spontaneous depolarization)
  • mechanical stimuli and innervated
  • visceral organs (gut, bladder etc)

5
Types of smooth muscle
  • Multiunit
  • discrete fibers
  • no gap junctions
  • innervated
  • large airways, large arteries, arrector pilli
    muscles

6
Potentials
  • Single unit
  • Pacemaker, slow wave and action potentials
  • Multiunit
  • Spike potentials

7
Smooth muscle contraction
Mechanisms
1. Myosin phosphorylation Ca binds to
calmodulin and activates MLCK allowing myosin to
bind to actin 2. Regulation by caldesmon Ca-calm
odulin removes caldesmon from its blocking
position on actin 3. Direct Ca binding Binding
onto myosin, allowing it to bind to actin
8
Calcium sources
  • Intracellular from SR
  • Extracellular
  • Voltage operated channel (AP) in multiunit muscle
  • Tension is maintained after Ca is gone

9
Length-tension relationship
  • Tension over a wide range of initial lengths

10
Contract of smooth muscle
  • Irregular myofilament arrangement

11
Cardiac muscle
  • Characteristics
  • contains striations
  • single innervation area by the ANS (pacemaker)

12
Cardiac muscle
  • Characteristics
  • cells are uninucleated
  • intercalated discs
  • desmosomes
  • gap junctions

disc
13
Cardiac muscle
  • Action potentials
  • plateau phase
  • prolonged refractory period

14
Cardiac muscle
  • Contraction
  • regulated by Ca
  • sources ECF and SR
  • Following contraction
  • Ca back into SR by Ca pump
  • Ca back into ECF by Na/Ca proteins on
    sarcolemma
  • Sources of Ca
  • Differences between vertebrates (frogs vs.
    mammals)

15
Intracellular calcium
  • Factors effecting concentration
  • 1. Degree of depolarization

16
Intracellular calcium
  • 2. Concentration of catecholamines
  • Ex. epinephrine, norepinephrine, dopamine
  • ?-adrenoreceptors activate IP3 increase Ca from
    SR

17
Intracellular calcium
  • 2. Concentration of catecholamines
  • ?-adrenoreceptors activate adenyl cyclase
    increase Ca across sarcolemma

18
Intracellular calcium
  • 3. Temperature
  • Why is heart rate in an ectotherm temperature
    dependent?
  • reduction slows Ca pump in the SR
  • reduction slows Na/Ca exchange across
    sarcolemma
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