Functions of Muscle
Myosin Microfilament
"thick" Shape of golf club two intertwined heavy chains. form rod portion lying parallel to myosin, and tow heads extend laterally. contains 300 myosin molecules.
Sliding Filament Model
-Actin myofilaments sliding over myosin to shorten sacromeres. -actin and mysosin do not change length -shortening sarcromeres responsible for skeletal muscle contraction. -During relaxation sarcomeres lengthen because some external force, like contraction of antagonistic muscles.
Action Potential Propagation
-spread from one location to another -action potential does not move along the membrane: new action potential at each successive location.
myosin heads
1) bind to active sites on the acin molecules to form cross-bridges. 2) bend and straighten during contraction, at hinge region. 3) Are ATPase enzymes.
troponin
3 subunits. First binds to actin, second binds to tropomycin, and third binds to calcium ions.
#2
Myosin APTPase enzymes in myosin head hydrolyze and release ATP molecule
#4
Myosin head binds to exposed active site on actin myofilaments to form cross-bridges.
#5
Pi relesed from myosin heads. energy moves myosin head causing actin myfilaments to slide. ADP is released from myosin head
I bands
Z line to end of myosin(start)
Action Potentials
a change in charge from the normal resting state.
Sarcomeres
basic functional unit of fibers.
ATPase enzymes
break down ATP to relase energy which bends the hinge region of the myosin molecule during contractions.
extensibility
capable of being stretched between contractions.
Skeletal muscle structure
composed of muscle cells(fibers), connective tissue, blood vessels, and nerves.
Muscular Fascia
connective tissue sheets external to epimysium, holds muscles together and seperates them into functional groups.
Muscle contraction
controlled by nervous system action potential.
sarcoplasm
cytoplasm of muscle cell
Titin filaments
elastic chains of amino acids. holds actin and myosin in place. muscles ability to stretch and recoil.
Tropomyosin
elongated protein
Z disc
filamentous network of proteins, that serve as attachment for actin myofilaments. Has a striated appearance.
Cardiac Muscle
heart; major source of movement of blood. controlled involuntary by endocrine and autonomic nervous system.
depolarization
inside becomes less negative. Must reach a threshold to depolarize.
Resting Membrane
inside cell is more negative, outside cell is more positive. Na+/K+ pump maintain this. must exist for action potential to occur.
A band
length of myosin
ligand gated ion channel
ligands are molecules that bind to receptors. ex: neurotransmitters
All or None Principle
like camera flash system
conductivity
local electrical change triggers a wave of excitation that travels along the muscle fiber.
myofibrils
long protein bundles that occupy the main portion of the sarcoplasm
Skeletal muscle fibers
long, cylindrical, multinucleated
Excitation-Contraction Couplings
mechanism where an action potential causes muscle like contractions.
M line
middle of H zone
H zone
middle of band; thick filament only(myosin).
What are the five functions of muscle?
movement, maintenance of posture and body temp., communication, construction of organs and vessels, and contraction of the heart.
Steps of muscle parts
muscle to muscle bundle,to muscle fiber, to muscle fibril.
Antagonistic Muscles
muscles that produce the opposite effect.
#8
myosin heads return to resting position. If Ca remains attached to troponin, the cycle continues.
Frequency
number of action potentials produced per unit of time.
What are the three types of muscle tissue?
skeletal, smooth, and cardiac
motor neurons
stimulate muscle fibers to contract. capillary beds surround muscle fibers.
Skeletal muscle appearance
striated appearance due to light and dark banding.
What is located in the Neuromuscular junction?
synapse -presynaptic terminal -synaptic cleft -postsynaptic membrane -motor end plate
Actin Microfilaments
thin microfilaments
F Actin
two fibrous strands, double helix. 200 globular monomer units, G Actin. Each has an active site. Actin site can bind myosin during muscle contraction
Skeletal muscle
voluntary muscles in body movement
Smooth Muscle
walls of hollow organs, blood vessels, eyes, glands, and skin. controlled involuntary by endocrine and autonomic nervous system.
#6
ATP binds to myocin head, causing detachments from actin
#7
ATPase from myosin head splits ATP to ADP and Pi, which remained attached.
#3
Activates the head"cocking" it in an extending position and ADP and Pi remained attached.
perimysium
CT surrounding group/bundle of muscle fibers/each group call a fasciculus.
epimysium
CT surrounds the whole muscle
endomysium
CT with reticular fibers, surrounds muscle fibers.
Steps in neuromuscular junction #1
Ca2+ binds to troponin. troponin/tropomyosin filament moves exposing active sites on actin filaments.
Voltage gated ion channel
open and close in response to small voltage changes across plasma membranes. Each is specific for certain ions.
sarcolemma
plasma membrane of muscle cell
The tropomyosin/troponin complex
regulates the interaction between active sites on G actin and Myosin.
What is responsiveness
responding to chemical signals, stretch, and electrical changes, across the plasma membrane
repolarization
return of resting membrane potential.
elasticity
returns to its original resting length after being stretched.
Muscle/cell fiber
several bundles (fascicle) of muscle fiber in each muscle.
contractility
shortens when stimulated
