ANSC 30170 Muscle Tissue 1, 2 & 3
contractile, regulatory, structural
3 kinds of protein in muscle
myofiber
A single multinucleate muscle cell containing all the usual cell organelles plus many myofibrils
cramp
Abnormal contractions: Painful spasm
fasciculation
Abnormal contractions: involuntary brief twitch of a motor unit visible under the skin
spasm
Abnormal contractions: involuntary contraction of single muscle
Tic
Abnormal contractions: involuntary twitching of muscles (eyelid or facial)
tremor
Abnormal contractions: rhythmic, involuntary contractions of opposing muscle groups
striated, one central nucleus
Appearance of cardiac muscle
striated, multinucleated, fibers parallel
Appearance of skeletal muscle
skeletal muscle
Attached to bone, well developed cross striations, typically requires nervous stimulation, lacks anatomic and functional connections between individual fibers
myofibril
end to end arrays of identical sarcomeres
movement, holding in position, control organ volume, moving substances in body, heat production
functions of muscles (5)
purkinje fibers
modified myofibers that carry the impulse for contraction into the myocardium. Larger in diameter than myocytes. Can have two nuclei and relatively pale sarcoplasm
smooth
Muscle type: GI tract, uterus, eye, blood vessels. Functions in peristalsis, blood pressure, pupil size, erects hairs
cardiac
Muscle type: in heart, functions to pump blood continuously
skeletal
Muscle type: located in skeleton, functions in movement, heat and posture.
muscle
organized arrays of muscle fiber
contractility
property of muscle: activation of tension generating sites
Ca2+
Physiology of cardiac muscle: contracts without stimulation, contracts 75 times per min and needs lots of O2, extended contraction is due to slow ______ delivery
calmodulin
Physiology of smooth muscle: contraction starts slowly and lasts longer, ____ binds calcium ions in the cytosol. Actives the enzyme myosin light chain kinase
electrical excitability, contractility, extensibility, elasticity
Properties of Muscle tissue
electrical excitability
Property of muscle: respond to range of stimuli and produce action potentials
actin
Protein of Muscle. Thin filament protein. Has myosin binding site covered by tropomyosin in relaxed muscle
skeletal
Regeneration of muscle: ____muscle fibers cannot divide after 1st year, satellite cells and bone marrow produce some new cells, if too few fibrosis occurs
myocyte
Rod like, multinucleated cell composing muscles. Contains many myofibrils
Multiunit
Smooth muscle type: Fibres regulated individually. Innervated by a single nerve terminal. Never contract spontaneously
visceral, multiunit
Smooth muscle: two types
troponin and tropomyosin
regulatory proteins in muscle which turn contraction on and off
troponin
Thin myofilaments; ____ molecule at the end of each tropomyosin
tropomyosin
Thin myofilaments; ___molecules wrap around the actin chain
actin
Thin myofilaments; two chains that coil around each other
Fast Twitch (Type 2)
Type muscle fibers: Contract quickly and give sharp, powerful muscle contractions. Don't use oxygen. Suited to activities with bursts of strength and power. Tire quickly
Slow Twitch (Type 1)
Type muscle fibers: Take longer to contract, give long sustained muscle contractions. Not as powerful. Good oxygen supply. Suited to activities which require long term energy
slow twitch (type 1), fast twitch (type 2)
Types of Skeletal Muscle fibers
acetylcholine
WHat is released to begin muscle contraction
bladder, intestines, blood vessels
Where is smooth muscle found
smooth muscle
____ fibers cells can grow in size. New fibers can form from stem cells in blood vessel walls
cardiac
____muscle fibers cannot divide or regenerate, all healing is by fibrosis
nerve ending, neurotransmitter, muscle membrane, stored Ca2+, ATP, muscle proteins
BAsic structures in muscle contraction (6)
myosin light chain kinase
Calmodulin activates the enzyme____________ which facilitates myosin-actin binding and allows contraction to occur at a relatively slow rate
action potentials
Cardiac muscle contraction is initiated by
thin filament
Composed of a linear array of hundreds of globular, actin monomers in a double helical arrangement
thick filament
Composed of hundreds of long, contractile myosin molecules arranged in a staggered side by side complex.
fascia
Connective tissue components: communication system, transmission of force. Network of myofascia and CT
cardiac muscle
Differences of ____ from skeletal muscle: shorter, the striations not so obvious. sarcolemma is thinner. 1 nucleus. adjacent fibres branch but are linked to each other by muscle bridges. Spaces between individual fibres are filled with areolar connective tissue which contains blood capillaries to supply the tissue with the oxygen and nutrients
no striations, one central nucleus
appearance of smooth muscle
sarcomeres
Each myofibril in a myocyte contains many contractile units called
1 nerve, 1 artery, 2 veins
Each skeletal muscle is supplied by
cardiac muscle
Has cross striations. Functionally syncytial, also can be modulated via autonomic NS. Prolonged contractions. Can contract in absence of external innervation. Functionally connected to adjacent cells (Intercalated disks,Desmosomes)
gap junctions
In cardiac muscle contraction, electrical impulse is passed to adjacent cells via
Smooth muscle
Involuntary and non-striated¡ Slow but sustained contraction. Small tapered fibre with single centrally located nucleus. Lacks T-tubules, little SR for Ca2+ storage
myofibril
composed of cytoskeletal protein actin and contractile protein myosin
myosin and actin
contractile proteins in muscle
walls of hollow organs, sphincters
smooth muscle locations
rigor mortis
stage of muscular rigidity, 3-4 hours after death and lasts 24 hours. Ca2+ ions leak out of SR and myosin heads bind actin. Since ATP synthesis has ceased, crossbridges cannot detach from actin until proteolytic enzymes begin to digest the decomposing cells
sarcomere
the unit of contractile activity composed mainly of actin and myosin and extending from Z line to Z line in a myofibril
myosin
thick filaments are composed of the protein. Each molecule resembles two golf clubs twisted together, and the heads extend toward the thin filaments
actin, troponin, tropomyosin
thin filament proteins
cardiac, skeletal, smooth
three types of muscular tissue
I band
Sliding filament mechanism of contraction: thin filaments slide inward
Visceral (unitary)
Smooth muscle type: Few myocytes innervated. Cells connected by GAP jxns. Often autorhythmic. Contraction as a unit
ATP hydrolysis, attachment of myosin to actin to form crossbridges, power stroke, detachment of myosin from actin
4 steps of muscle contraction cycle
sarcomeres
Microscopic anatomy of smooth muscle: Thick and thin myofilaments lack ______
myosin head
Myosin: this has ATP binding sites, Actin binding sites, is hinged to thick myofilament allowing to swivel back and forth - the swiveling caused muscle contraction
M line
Sliding filament mechanism of contraction: Myosin cross bridges pull on thin filaments
Z discs
Sliding filament mechanism of contraction: ____come toward each other
sarcomeres
Sliding filament mechanism of contraction: ____shorten, muscle fiber shortens, muscle shortens
titin, myomesin, nebulin, dystrophin
Structural proteins which provide proper alignment, elasticity and extensibility
