Muscle

Question 1

in multicellular organisms what is movement assumed by

Answer 1

specialized cells = muscle fibers
contract upon appropriate stimulation

Question 2

name the 3 types of muscle

Answer 2

skeletal striated muscle
cardiac muscle
smooth muscle

Question 3

is a muscle cell and fiber the same

Answer 3

yesss

Question 4

describe skeletal muscle generally

Answer 4

elongated multi-nucleated cell
cross striations (appearance of bands)
associated with many capillaries
collagen fibers
satellite cells
quick contraction and forceful
voluntary control
fibrocytes

Question 5

why is skeletal muscle multinucleated

Answer 5

nuclei divide but cell does not separate and nuclei become embedded

Question 6

why is skeletal muscle striated

Answer 6

myofibrils - cytoplasm filled with them

Question 7

why is skeletal muscle associated with many capillaries

Answer 7

need blood to contract

Question 8

what type of collagen fibers are found in skeletal muscle

Answer 8

type 3
reticular fibers

Question 9

what is a satellite cell in skeletal muscle

Answer 9

located between sarcolemma (muscle fiber/cell) and BM
stem cell
mononucleated spindle cells
can repair muscle (like when pull muscle)
only in skeletal
limited regeneration via satellite cells
only seen in EM

Question 10

describe bands of sarcomere

Answer 10

A band = darker
I band = paler
Z line = line in center, middle of I band

Question 11

describe cardiac muscle generally

Answer 11

one nucleus in center
striated myofibrils
contained between intercalated disks
many capillaries
nuclei surrounded by halo
involuntary contraction
Vigorous and rhythmic

Question 12

describe myofibrils of cardiac muscle

Answer 12

irregular
heterogenous shapes

Question 13

what is intercalated disk

Answer 13

point of initiation of cell and other disk = end of cell

Question 14

why does cardiac muscle need many capillaries

Answer 14

needs more than brain
during myocardial infarction (MI) cardiac tissue dies fast without oxygen - needs lots

Question 15

describe halo that surrounds nuclei of cardiac muscle

Answer 15

golgi apparatus and glycogen
does not react well with H&E staining

Question 16

what is hypertrophy and describe

Answer 16

occurs in striated muscle
hyper = above
trophy = nourishment

Question 17

what does hypertrophy result from

Answer 17

above nourishment of new myofibrils in skeletal muscle

Question 18

when is hypertrophy abnormal or normal

Answer 18

normal in skeletal
Abnormal in cardiac

Question 19

why is hypertrophy abnormal in cardiac muscle

Answer 19

Muscle of heart wall will not contract properly

Question 20

why is hypertrophy normal in skeletal muscle

Answer 20

gym - change in activity
will synthesize myoglobin (proteins) and oxygen binds - since cells need more oxygen
Myofibrils and muscle becomes bigger

Question 21

describe smooth muscle generally

Answer 21

spindle shaped cells
nucleus centrally located (not always visible due to cross section POS)
will not see myofibrils
corkscrew nucleus
slow contraction
involuntary

Question 22

does smooth muscle only have actin

Answer 22

NOOOO
some myosin
mainly actin

Question 23

why will you not see myofibrils in smooth muscle

Answer 23

made of actin filaments
small

Question 24

describe the spindle shaped cells of smooth muscle

Answer 24

smaller
shorter
thicker

Question 25

why does smooth muscle have corkscrew nucleus

Answer 25

retracts a bit when fixed with chemicals

Question 26

why is smooth muscle being involuntary good

Answer 26

body needs contraction all the time
like in vessels and stomach

Question 27

what is hyperplasia and describe

Answer 27

normal in smooth muscle
hyper = above
plasis = molding
ex = uterine wall during pregnancy
number and size of cells increase
only in smooth muscle since these cells can divide by mitosis

Question 28

what is epimysium of skeletal muscle

Answer 28

divide muscles into groups of cells

Question 29

what are skeletal tissues surrounded by

Answer 29

dense ct = bundle or fascicle

Question 30

what is perimysium of skeletal muscle

Answer 30

thin layer ct
fibrocytes surround bundle
special - connected by gap junctions

Question 31

what is endomysium of skeletal muscle

Answer 31

BM that surrounds and separates individual cells
very thin
reticular fibers
capillaries
some fibrocytes

Question 32

what is the role of CT around muscle cells in skeletal muscles

Answer 32

mechanical transducer to the forces generated by contracting muscle cells
associated to tendons and ligaments (produce movement and transduce)

Question 33

describe breakdown of muscle (fascicle to filaments)

Answer 33

fascicle (bundle of muscle fibers) –> muscle fiber (1-40nmx10-100um) –>1500 myofibrils (1-2um diameter) –>3000 thin filaments (F-actin), 1500 thick filaments (myosin)

Question 34

what is center of pseudoband H

Answer 34

cross linking proteins
forms M line
H band = only thick filaments

Question 35

what does myosin have

Answer 35

tail and head

Question 36

what is sarcomere

Answer 36

smallest repetitive subunit of contractile apparatus
Z line to Z line

Question 37

what is Z line

Answer 37

alpha actinin
anchors thin filament

Question 38

what is M line

Answer 38

creatine kinase = cross linking - catalyses
phosphocreatine + ADP –> ATP + creatine

Question 39

describe thick filament

Answer 39

myosin
4 myosin heavy chains
2 myosin light chains

Question 40

what happens when use chymotrypsin to split molecules of thick filament into fragments and separate

Answer 40

LMM = light meromysoin
HMM = heavy meromyosin

Question 41

describe HMM subunits and function

Answer 41

HMMS - 2
HMMS - 1 = 2 activities = binds ATP and has ATPase activity, actin binding site = wants to bind actin and activates ATPase

Question 42

describe thin filament

Answer 42

actin
globular proteins
polarized molecule
binds in active site

Question 43

name the important components of broken down thin filament

Answer 43

tropomyosin
troponin

Question 44

name and describe the 3 troponin subunits

Answer 44

TnI = inhibit actin myosin interaction
TnC = binds calcium
TnT = anchors to tropomyosin
*ONLY with calcium

Question 45

where is tropomyosin present

Answer 45

in groove

Question 46

what does troponin do

Answer 46

binds calcium and produces change in conformation of tropomyosin and can bind actin

Question 47

describe mechanism of action of sarcomere - physically

Answer 47

thin slides over thick - no change in length
pseudoband H becomes smaller and so does I band

Question 48

describe mechanism of action of sarcomere - chemically

Answer 48

cleaves ATP –> ADP and releases phosphate (activated by calcium) = produces energy for bending of myosin head
since myosin head attached to actin= thin filament displaced and slides over thick = contraction

Question 49

name and describe proteins involved in mechanism of contraction of sarcomere

Answer 49

titin = spring like, connects myosin to Z line and provides stability
nebulin = surround actin filaments
tropomodulin

Question 50

describe terminal cisternae

Answer 50

sarcoplasmic reticulum - SER
non granulated

Question 51

describe connecting tubules

Answer 51

sarcoplasmic reticulum
connect adjacent terminals
mitochondria

Question 52

describe T tubules

Answer 52

sarcolemma - PM
invagination of PM
follow between 2 terminal cisternae

Question 53

what is a triad

Answer 53

2 terminal cisternae + t tubule

Question 54

where is calcium ATPase

Answer 54

on membrane of terminal cisternae

Question 55

what is calsequestrin

Answer 55

protein
pumps calcium into sarcoplasmic reticulum
dumps molecules without binding

Question 56

describe when action potential fired in sarcomere

Answer 56

inside T tubule
depolarization of membrane
calcium released into sarcoplasm and will be available for contraction

Question 57

describe STEPS = 5 when action potential fired in sarcomere

Answer 57

1 - muscle ap propagated
2 - in t tubule = calcium released from lateral sac
3 - calcium binds to troponin = removes blocking action of tropomyosin
4 - cross bridge moves, sliding of actin, head bending = contraction
5 - calcium leaving troponin restores tropomyosin blocking action with calcium resequestration

Question 58

what are other words for neuromuscular junction

Answer 58

motor end plate
myoneural junction
terminal bouton

Question 59

how does contraction occur in sarcomeres

Answer 59

Simultaneously in all sarcomeres, in all myofibrils of one muscle cell in all muscle cells in a bundle of muscle

Question 60

how to ensure synchronous contraction

Answer 60

muscle fibers innervated by myelinated nerves
fast due to myelin

Question 61

describe myelinated motor nerves

Answer 61

branch out within perimysium and endomysium where each nerve gives rise to several terminal wings called terminal boutons

Question 62

describe where the myelinated motor nerves penetrate

Answer 62

penetrates at level of epimysium
axons branch in endomysium
synapse between nerve and muscle cell (muscular tissue)

Question 63

where is ACH receptor present (neuromuscular junction)

Answer 63

post synaptic membrane only
gates - bind acetylcholine

Question 64

describe synaptic vesicle (neuromuscular junction)

Answer 64

many when have action potential in neuron = stimulates exocytosis
fusion with presynaptic membrane
contain ACH (small molecules released in lumen synaptic cleft)

Question 65

what happens when ACH binds (neuromuscular junction)

Answer 65

sodium flows in and potassium out
changes polarity of membrane
Origination of ACH on potential - AP spreads to t tubules and sarcolemma
causes depolarization, calcium diffuses towards sarcoplasm = contraction

Question 66

describe myelin - what its caused bypp

Answer 66

schwann cell - surrounded by BM, synthesis of myelin and wraps around axon

Question 67

is BM continuous with muscle fiber of (neuromuscular junction)

Answer 67

yup

Question 68

what is presynaptic membrane (neuromuscular junction)

Answer 68

membrane of axon - terminal bouton

Question 69

what is synaptic cleft (neuromuscular junction)

Answer 69

space in between pre and post synaptic membranes

Question 70

what is postsynaptic membrane (neuromuscular junction)

Answer 70

sarcolemma - PM of muscle cell

Question 71

how would you visualize neuromuscular junction

Answer 71

immunochemistry to visualize proteins = one antibody for axon and one identifies terminal bouton

Question 72

describe ACH receptor

Answer 72

molecular weight = 270.00
5 subunits = 2 alpha, 2 beta, 1 gamma, 1 delta
under BM

Question 73

what is myasthenia gravis

Answer 73

produces antibodies against acetylcholine receptor

Question 74

describe ACH-cholinesterase

Answer 74

present in synaptic celft
ACH after contraction has to be removed = breaks ACH to acetate (recycled) and choline

Question 75

does cardiac muscle have sarcomeres

Answer 75

yuhhh

Question 76

name and describe each part of intercalated disk

Answer 76

fascia - zonula adherens (transverse part)
macula adherens (transverse part)
gap junctions (lateral part)
alpha actinin in center
plaque, desmosomes, thin filaments anchors into PM

Question 77

describe zonula adherens (intercalated disk)

Answer 77

goes all around 2 adjacent PM
bell junction
alpha-actinin/vinculin = actin anchoring of terminal web (into alpha-actinin)
·intercellular space =15 nm cadherins

Question 78

describe mucula adherens - desmosomes (intercalated disk)

Answer 78

trapped in small spot
bell like
intercellular space = 25nm
intermediate filaments
Transmembrane proteins: desmocollin & desmoglein (provide stability)
plaque: Desmoplakins 1 and 2, plakoglobin & desmocalmin

Question 79

describe gap junctions (intercalated disk)

Answer 79

coupled connexons (6 connexins)
Channels (1.5 nm diameters) for 2nd messengers like calcium
calcium diffuses through gap junctions = Rhythmic (everything at sametimes)
connexin 48 = predominant in cardiac muscle (if mutated baby will not survive)

Question 80

describe sarcoplasmic reticulum of cardiac muscle

Answer 80

sometimes has t tubules and terminal cisternae
triad = at level of z line

Question 81

what does one unit of smooth muscle look like

Answer 81

sarcomere - but not tho

Question 82

what are smooth muscle cells not similar to

Answer 82

hemidemosomes

Question 83

describe dense bodies of smooth muscle

Answer 83

anchoring of actin filaments
alpha actinin like proteins - similar to z line but NOT

Question 84

what is similar to t tubules in smooth muscke

Answer 84

little invaginations represent t tubule = vesicles/caveolae

Question 85

where is myosin in smooth muscle cells

Answer 85

some myosin filaments all spread and floating in plasma membrane

Question 86

what do smooth muscle cells have - specifics

Answer 86

dense bodies
PM
BM
reticular fibers
actin and myosin filaments = myosin head binds actin and bends

Question 87

recall a hemidesmosome and why it is not similar to dense bodies of smooth muscle

Answer 87

tonofilaments (intermediate filaments)
plaque BP-protein anchors to tonofilaments
integrins, laminin and anchoring fibrils (collagen VII) anchor near plaque

no alpha actinin or vinculin like in dense bodies

Question 88

describe elhers danlos syndrome

Answer 88

mutation of reticular fibers - which confer stability to smooth muscle cells
can cause rupture of digestive system and an aneurysm of arteries

Question 89

what are myosin heavy chains attached to in smooth muscle

Answer 89

attach to light chain
head attached to tail = myosin cannot bind actin = no contraction

Question 90

what does calcium initiate

Answer 90

myosin light chain kinase

Question 91

describe myosin light chain kinase of smooth muscle

Answer 91

ATP –> ADP = generates phosphate = release tail/heavy chains from light chains
now myosin head binds actin = bending of head

Question 92

why is slow contraction of smooth muscle good

Answer 92

great for intestine - peristalsis

Question 93

what does relaxation of smooth muscle depend on and explain process

Answer 93

depends on decrease of calcium levels causing subsequent inactivation of myosin light chain kinase = everything returned to normal (calcium removed)