Summary

This document explains the mechanism of muscle contraction, how muscles are activated, and the sliding filament theory. It also describes different types of muscle fibers and energy production in muscles. It's a great resource for learning about the skeletal muscular system.

Full Transcript

Mechanism of Muscle Contraction Cross bridge attachment ○ Myosin head Power stroke Cross bridge detachment Myosin reactivation Resting sarcomere Myosin head back ATP + P bound to myosin head - energized position Myosin is not bound to actin because tropomyosin is bl...

Mechanism of Muscle Contraction Cross bridge attachment ○ Myosin head Power stroke Cross bridge detachment Myosin reactivation Resting sarcomere Myosin head back ATP + P bound to myosin head - energized position Myosin is not bound to actin because tropomyosin is blocking the binding How are muscles activated Motor neuron releases acetylcholine Acetylcholine bind ligand gated channels of muscle membrane - Action potential on muscle membrane Action potential travels through T-Tubule and causes release of Ca2+ from nearby sarcoplasmic reticulum Ca+ binds troponin to move tropomyosin Sliding filament theory: Step 1 - cross-bridge attachment ○ Myosin will bind actin because tropomyosin moved ○ Myosin head is still back with ADP + P bound ○ Step 2 - Power Stroke ○ Myosin head swings forward while ADP + P removed Low energy ○ Myosin bound to actin ○ Step 3 - cross-bridge detachment ○ ATP binds myosin head to release it from actin - myosin not longer bound to actin ○ Head forward ○ Step 4 - myosin reactivation ○ ATP is converted to ADP + P to cause myosin head back ○ Myosin is not bound to actin ○ Regulation of muscle contraction Ca ++ determines position of troponin/tropomyosin CA++ stored in the sarcoplasmic reticulum and is released in response to action potential carried by T-tubules Strength of contraction Motor unit: one motor neuron and all of the muscle fibers it innervates ○ Small motor unit: (4-10) Don’t use as much energy - allows more control over emotions/actions Small motor units with few muscle fibers Most abundant in the eyes ○ Larger motor unit: (50-100) Gives more strength - more muscle fibers = more strength Largest fibers in the legs Muscle tone: some motor neurons always active to maintain body position and posture Involuntary Energy production in Muscles Stored energy: ○ ATP - enough stored to last about 6 seconds ○ Creatine phosphate - transfers phosphate to ADP to make ATP - enough stored to last about 10 seconds ○ 10x more creatine phosphate can be stored than ATP Anaerobic respiration: without oxygen ○ Glucose only in 1st step (glycolysis) 2 ATPs Sustained for about 60 seconds Quick Produces lactic acid Aerobic respiration: with oxygen ○ Glucose need in all steps 36 ATP ○ Sustained for light to moderate activity ○ Fats also used for energy ○ Slower ○ Longer exercise fatty acids need to be used so blood glucose can be maintained Types of muscle fibers Fast Twitch ○ Relies on anaerobic respiration ○ Lower blood supply and mitochondria ○ Activated for more intense exercise Slow Twitch ○ Relied on aerobic respiration ○ Higher bloody supply and mitochondria ○ Activated for light to moderate exercise Activation of different muscle fibers ○ Motor units only contain one type of muscle fibers ○ Muscles contain motor units with both slow and fast fibers ○ Slow fibers activated first ○ If needed, fast fibers will be activated

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