3 Types of Muscle Tissue Properties of Muscle Tissue

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Presentation transcript:

3 Types of Muscle Tissue Properties of Muscle Tissue Skeletal – attached to bone Contractility Excitability Cardiac – the heart Extensibility Smooth – internal organs blood vessels Elasticity

Facts and Functions of Skeletal Muscle Movement of Body Heat Production (Tb) Protection of Body About 40% body mass Muscle fiber = Muscle cell One muscle cell (see next slide)

A Muscle Fiber (Cell)

Neuromuscular Junction of Skeletal Muscle

Diagrammatic Neuromuscular Junction

Excitation - Contraction in Skeletal Muscle

Intracellular Ca2+ triggers contraction

Sarcolemma Lateral sacs

The Sarcomere

Contractile Proteins Regulatory Proteins Actin – “thin filaments” 2 regulatory proteins associated with actin 1. Tropomyosin guards active site on actin 2. Troponin binds Ca2+ Myosin – “thick filaments” – ATPase site on head – Actin binding site on head

Structures of the Sarcomere Z disks H-band I-band A-band M line H-band = myosin only I-band = actin only A-band = all of the myosin

Muscle Relaxation

Sources of ATP in Muscle Tissue (Skeletal Muscle Metabolism) 1) Immediate – Creatine Phosphate 2) Short Term – Glycolysis (Lactic Acid) 3) Long Term – Oxidative Phosphorylation

1) Creatine Phosphate (CP) Takes P from creatine and sticks it on ADP Creatine Kinase P CP C ADP ATP Makes ATP, but CP is very limited! (~ 6 seconds)

3) Oxydative Phosphorylation 2) Glycolysis Glucose (C6H12O6) 2 ADP Glycolysis + Lactic Acid 2 ATP Have O2 No O2 (30-40 sec) Krebs Cycle 3) Oxydative Phosphorylation ETC 36 ATP

Where is ATP used in Muscle Tissue 1) Re-sequestering Ca2+ into the SR e.g., requires 1 ATP for every 2 Ca2+ imported to SR 2) Breaking the Crossbridge (Myosin-Actin bond) * Needed for relaxation or continuation of contraction

Muscle Fatigue - Depletion of O2 - decrease in ATP available. Depletion of glucose or glycogen - decrease in ATP available. Slows Na+/K+ pumps, decreases RMP excitability. Lactic Acid Build-Up. Motor neuron exhaust ACh: "junctional fatigue". CNS (origin) "central fatigue", mentally exhausted.

1. Slow Twitch: Aerobic 2. Fast Twitch: Anaerobic - Slow onset of contraction - Fast onset of contraction - Slower to fatigue - Faster to fatigue - Smaller diameter - Larger diameter - More mitochondria - Fewer mitochondria - More capillaries - Fewer capilaries - Myoglobin - High glycogen stores - Posture, Endurance - Power lifting, Sprinting

Comparison of Slow and Fast Twitch Muscle Fibers

Varying the Force of Contraction (Graded Skeletal Muscle Contraction) 1) Temporal Summation 2) Spatial Summation 3) Length of Resting Sarcomere

Length of Sarcomere and Tension Generation