Shared Flashcard Set

Details

biol 251 exam 3
13
17
Biology
Undergraduate 3
10/18/2011

Additional Biology Flashcards

 


 

Cards

Term
I. Broad Comparisons of Smooth, Cardiac, and Skeletal Muscle
Definition
A. All have contractile system apparatus composed of thin actin filaments that slide
past stationary thick myosin filaments in response to increase in Ca
++
B. All use ATP directly as energy source for cross-bridge cycling
C. But structure and organization of the 3 muscle fibers are different
D. But mechanisms of excitation different
E. But coupling of excitation and contraction different
F. But contraction responses different

D. Activated calmodulin activates enzyme myosin light chain kinase (MLCK)
E. Activated MLCK phosphorylates myosin by splitting a phosphate off of ATP
F. Phosphoylated myosin binds with actin and cross bridge cycling begins.
G. When Ca
++
removed by active transport out of smooth muscle cell, calmodulin
and in turn MLCK return to inactive form, and an enzyme called phophatase
removes phostphate from myosin. Hence myosin becomes unphosphorylated and
no longer binds to actin, and the muscle cell relaxes
H. Mechanism of stimulation of smooth muscle depends on whether it is multiunit or
single unit smooth muscle
Term
A. Structure of smooth muscle cells (Fig 12.33)
Definition
1. Found mostly in walls of hollow organs and tubes
a) contraction causes forward movement of contents of tube
b) digestive tract & blood vessels
2. Spindle shaped, have a single nucleus (recall that skeletal muscle cells are
multi-nucleated)
3. Smaller than skeletal muscle cells
4. Do not extend full length of muscle as do skeletal muscle cells
5. Groups of smooth muscle cells are typically arranged in sheets
Term
B. Subcellular structure of smooth muscle
Definition
Three types of smooth muscle cell filaments
a) Thick myosin filaments
(1) longer than in skeletal muscle
b) Thin filaments composed of
(1) actin
(2) tropomyosin
(3) No troponin
(4) 10 to 15 thin filaments/thick filament instead of 6 in
skeletal muscle
c) Intermediate filaments only support cell shape
Term
Subcellular structure of smooth muscl
Definition
2. Myofibrils are not formed, and there is no sarcomere arrangement
3. No Z lines
a) smooth muscle does have dense bodies made of the same protein
that make up Z lines
b) Dense bodies are found throughout cell and are anchored to the
cell membrane
c) actin filaments are anchored to dense bodies.
4. No T tubules
5. Underdeveloped SR
Term
III. Molecular basis of smooth muscle contraction (Fig 12.34)
Definition
A. Ca
++
channels on smooth muscle membrane open, and Ca
++
from the ECF diffuses
into cell (recall that concentration gradient of Ca
++
is from ECF into ICF)
B. Entering Ca
++
causes SR to release small amounts of Ca
++
, functionally not very
important
1. Because smooth muscle cells are so much smaller in diameter than
skeletal muscle cells SR & T-tubules are not needed to deliver Ca
++
deep
into the muscle
C. Ca
++
activates enzyme called calmodulin
Term
IV. Multiunit Smooth Muscle (rare) (Fig 12.35)
A. Organization
Definition
1. Smooth muscle cells within a smooth muscle are organized into different
functional units
2. Each unit (i.e., group of smooth muscle cells) separately stimulated by
nerves of autonomic nervous system
a) such contractions are called neurogenic (nerve produced)
3. Each unit functions independently of other units
a) similar to skeletal muscle
4. Rare; found in
a) walls of large blood vessels
b) large airways to lungs
c) eye muscles related to distance vision
d) iris of eye
e) base of hair follicles (goose bumps)
Term
V. Single-Unit Smooth Muscle (common)
Definition
A. Muscle fibers in muscle make up a single unit and contract together
B. Fibers are linked by gap junctions; an AP anywhere in the muscle propagates via
gap junctions to all fibers, so whole muscle contracts together
1. Example: uterine walls need to contract together to expel baby from
uterus; stomach walls also need to contact together
C. Stimulated by
1. Autonomic nervous system
2. Myogenic activity (muscle produced; Fig 12.36)
Term
pacemaker activity (e.g., lymph vessels)
Definition
(1) in a pacemaker cell, the membrane depolarizes on its own
because of automatic changes in channel permeability
(2) once AP fired in pacemaker, it spreads to rest of smooth
muscle cells via gap junctions
Term
b) slow wave potential (e.g., intestine)
Definition
(1) gradual alternating hyperpolarizing and depolarizing
swings in potential caused by cyclical changes in the rate at
which Na
+
is actively transported across membrane
(2) Threshold not always reached, but when it is, a burst of
AP’s follow
Term
A. Modification of contraction strength in single unit smooth muscle
Definition
1. Fiber tension modified by varying cytosolic Ca
++
concentration
2. As cytosolic Ca
++
increases, so does number of cycling cross bridges
3. Many single unit smooth muscles maintain low levels of cytosolic Ca
++
,
which means low level of contraction always occurring; this is called
muscle tone
Term
B. Modification of contraction strength in multiunit smooth muscle
Definition
1. Functional unit recruitment (= motor unit recruitment of skeletal muscle)
2. Varying cytosolic Ca
++
concentration within a cell
Term
Factors that modify cytosolic Ca
++
and hence contraction strength for both single
and multiunit smooth muscl
Definition
1. both branches of autonomic nervous system
2. hormones
3. metabolites
4. mechanical stretch
5. drugs
Term
Considerably stretched smooth muscle can still develop tensio
Definition
1. urinary bladder: when full, it is stretched, but you need to develop more
tension becaue you have to contract bladder to empty it
Term
E. Can relax even when stretched
Definition
1. probably caused by re-arrangement of cross bridges after stretching
Term
F. Is slow and economical
Definition
1. slow rate of ATP use
2. cross bridges latch onto thin filaments longe
Term
Cardiac Muscle
A. Structur
Definition
1. Striated: Thick and thin filaments highly organized
2. Contains troponin and tropomyosin
3. Clear cut length-tension relationship like skeletal muscle
4. Have T tubules and pretty good SR
5. Lots of mitochondria like oxidative skeletal muscle fibers
6. cells are connected by gap junctions
7. Innervated by autonomic nervous system
8. Fibers are joined in branching networ
Term
B. Function of cardiac muscle
Definition
1. Ca
++
enters cytosol from ECF and SR
2. Some cardiac cells have pacemaker activity like smooth muscle
3. APs have long duratio
Supporting users have an ad free experience!