Midtterm nr 2 Flashcards

Question 1

Q

Immunology

The what are the different immune organs?

Answer

A

Primary immune organs(Central): 
- Thymus,
- Bursa fabrici (Birds) 
- Bursa equivalents (mammals)
- Embryonic liver
- Bone marrow
Secondary immune organs (peripheral):
- Lymph nodes
- Spleen
- MALT (mucosa associated lymph tissue) 
- GALT (Gut assiciated lymph tissue)

Question 2

Q

Natural Immunology

What are the two different immune systems?

Answer

A

Natural immunity (Innate)
Adaptive (acqiured) immune respons

Question 3

Q

Natural Immunology
Natural immunity (innate) - general description

Answer

A

Not antigen specifick
Activated by Toll-like receptors
Immediate immune responce (security guard on a club)
Has no memmory

Question 4

Q

Natural Immunology
Natural immunity (innate) - Cells

Answer

A

Neutrophil
Eosinophil
Basophil
Monocytes/Macrophages
Natural killers (Kills the virus and tumor infected cells)

Question 5

Q

Natural Immunology

What is a macrophage?

Answer

A

Derives from the monocyte
Different names depending on what tissue you find them
Granules filled with digestive enzymes
Importaint in fighting bacterias
Importaint in ingest damaged cells by phagocytosis
Present antigens to T-cells
Destroys tumor cells and plays role in inflammatory resp.

Question 6

Q

Natural Immunology

What does the NK cells do?

Answer

A

The parts that kills the virus and tumor infected cells

Does not require a binding to MHC-Ag complex, therefore they kills tumors with low levels of MHC molecules.

Question 7

Q

Natural Immunology

What are the most important cells in tumor immunology=

Answer

A

CD4 (-)

CH8 (-)

Question 8

Q

Natural Immunology

What are the main molecular components

Answer

A

Complement factors and their receptors
Heat shock proteins
Fc receptors
Inflammatory cytokines
Histamine

Question 9

Q

Immunology

What is the complement system

Answer

A

A group of proteins taking part in the activation of the inactive enzymes like blood in coagulation cascade.
I helps or complements the antibodies and the phagocytic cells to clear the phatiogens from the body.
Consist out of 3 dif ways
All the three ways are converted into C3 complement component. The C9 will then make a drill

Question 10

Q

Immunology - The compliment system

What are the 3 dif ways of the complement system?

Answer

A

Alternative pathway: A previously unknown antigen appears in the body as a TRIGGER
Classic pathway: Previously produced specific antibody and the antigen built a complex and innate the process.

Mannose binding lectin: Binds to the oligosacharides of certain virus or infected cells.

Question 11

Q

Immunology - The component system

How will the 3 kinds of pathways of the complement system kill the virus?

Answer

A

The 3 dif ways will convert into C3 complement component. The C9 will then make a drill.
Activate a membrane drill, that makes the membrane of the virus etc discontinues.
The ENZYME or OSMOTIC SHOCK will kill the virus.

Question 12

Q

Immunology - The component system

What are the function of the compliment system?

Answer

A

Lyse bacterial membrane
Initiates chemotaxis
Stimulate opsonization

Question 13

Q

Immunology - Adaptive (acquired) immune response

What are the different antigens?

Answer

A

Auto: From you’re self
Allo: From same species
Xeno: From another species

Question 14

Q

Immunology - Adaptive (acquired) immune response

The adaptive immune response has two types of specific immune response, what are They?

Answer

A

The Humoral

The Cellular

Question 15

Q

Immunology - Adaptive (acquired) immune response

The humoral immunity

Answer

A

From the bone marrow
Their antibodies are synthesized in secondary lymphatic organs.
Cells: B-lymphocytes plasmacells.
Immunoglobulins
Receptor: BCR

Question 16

Q

Immunology - Adaptive (acquired) immune response

The Cellularl immunity

Answer

A

Produced in the Thymus
Cells: T-lyphocytes, lymphoblasts
Receptors: TCR

Question 17

Q

Immunology - Adaptive (acquired) immune response

Active immunity

Answer

A

Inducted when cells get in contact with a non-self antigen. Actively reacts to the antigen.

Question 18

Q

Immunology - Adaptive (acquired) immune response

Passive immunity

Answer

A

When an individual is made immune by receiving the cells or immunoglobulins of an already immunized individuals: Vaccine

Question 19

Q

Immunology - Adaptive (acquired) immune response

3 different phases

Answer

A

Afferent phase
Central phase (Activation phase)
Efferent phase

Question 20

Q

Immunology - Adaptive (acquired) immune response

Afferent phase

Answer

A

Antigens are recognized by foreign bodies and their processing.

Question 21

Q

Immunology - Adaptive (acquired) immune response
Central phase (activation phase)

Answer

A

The activation, spreading and differentiation of specific and non-specific immune cells

Question 22

Q

Immunology - Adaptive (acquired) immune response

Efferent phase

Answer

A

Activate immune cells and eliminates the non self and develop a tolerance against the,

Question 23

Q

Immunology - Immunoglobulins

What are immunoglobulins?

Answer

A

Antigen recognizing molecules, and binds specificialy to ligands.
Produced by plasma cells
The immunoglobulins (Ig) are heterogenic (do not derive from the body)
Diff in electroforetic mobility (how they react in gel)
Similar in antigen structure
Composed of chains.
What kind of chain? - By the basis of the molecular mass

Question 24

Q

Immunology - Immunoglobulins

Heavy and light chains

Answer

A

We talk about light chains and heavy chains and they have a variable region and a constant region.

Question 25

Q

Immunology - Immunoglobulins
Clevage, antigens-bindings, crystalizing factors.
Variabuility

Answer

A

Immunoglobulins can be cleaved by enzymes into antigen-bindings and crystalizable factors.

Question 26

Q

Immunology - Immunoglobulins
Clevage, antigens-bindings, crystalizing factors.
VARIABUILITY

Answer

A

Isotipia: Variabuility in class
Allotipia: Variabuility in individual type
Idiotipia: Variabuility in an immunoglobulin type

Question 27

Q

Immunology - Immunoglobulins

What are the things that differentiate the diff immunoglobulins

Answer

A

The variable domain
Ag-binding site
Antibodies are formed by immunoglobulin domains

Question 28

Q

Immunology - Immunoglobulins

Immunoglobulins duel function

Answer

A

Monofunctional: Activated before the antigen administration, Fab-fragment antigen binding dependent.

Polyfunction: Activeted after the antigen administration, Fc-fraction crystallizable dependent.

Question 29

Q

Immunology - Immunoglobulins

IgA

Answer

A

Produced in the plasma cell in the submucosa
Secreted into the interstitial fluid
Binds the polymeric receptors containing the secretory component on the surface of the mucosal cells.
IgA is transported to the mucosal cell in a secretory vesicle, and separate from the receptors, which enters the cytoplasm.

Question 30

Q

Immunology - Immunoglobulins

IgM

Answer

A

Remain in the circulation and play a role against the complex pathogens.
Is the biggest antibody.
Because of its big size it is responsible for the hemolysis of the fetal RBC.
Rh incompability
Polymere

Question 31

Q

Immunology - Humoral immunity, B-lymphocytes and self restriction.
B-lymphocytes

Answer

A

Synthesizes antibodies (immunoglobulins, ang recognize (binds to antigen) and produce antibodies.
Antigen binding triggers the cell differentiation which leads to the transformation of the B-lymphocytes into plasma cells that secrete antibodies.

Question 32

Q

Immunology - Humoral immunity, B-lymphocytes and self restriction.
B-lymphocytes - Maturation/development

Answer

A

The B-lymphocytes go under several phases of immunoglobulin production.
The genes are activated, and the are regulated at numerous levels in these phases.

Question 33

Q

Immunology - Humoral immunity, B-lymphocytes and self restriction.
B-lymphocytes - Maturation/development
The primary antibody repertoire

Answer

A

Immunoglobulins against about 10^9 different possible antigen determinants.
Each B-cell carry a single Ig(BcR) on its surface.

Question 34

Q

Immunology - Humoral immunity, B-lymphocytes and self restriction.
B-lymphocytes - Maturation/development
Stages

Answer

A

First is the preparation so the pre-B-lymphocytes mature and become virgin-b-lymphocytes.
On each virgin is an IgG-molecule.
When this cell gets into the blood, the antigen- dependent phase starts.
If there is an antigen in which the virgin B-lymphocytes have an immunoglobulin structure the virgin-lymphocyte binds to the antigen and gets activated.
This activation may be helper-T-lymphocyte-independent or dependent.
The now active B cells will settle down in the secondary organs, and develop to plasma cells or memory cells.

Question 35

Q

Immunology - Humoral immunity, B-lymphocytes and self restriction.
Clone selection theory

Answer

A

The B-lymphocyte that is specific to one antigen is already present before the antigen gets into the body, and reacts when the virus gets into the body.

This means that the body produces immunoglobulins against possible antigens and stores it on the surface of the B-lymphocyte.

There are also genes doing this, because they join each other randomly resulting in almost unlimited regions capable for recognizing millions of different possible antigens produced.

Question 36

Q

Immunology - Humoral immunity, B-lymphocytes and self restriction.
Isotype swiching

Answer

A

The constant region changes.
H-chain (Histones).
The original on is IgM. 
The major switch is the cytokines. 
If cytokines is present, other immunoglobulins are made like IgG, IgA, ect.

Question 37

Q

Immunology - Humoral immunity, B-lymphocytes and self restriction.
Self restriction

Answer

A

After the antigen stimulus the efficiency and potency of the immune response will DECREASE.
The lymphocytes will die or be converted to memory cells.
Negative feed back mechanism.

Question 38

Q

Immunology - Cellular immunity, T-lymphocytes and hte MCH structure of the cells.
Endogenous

Answer

A

Endogenous substances and processes are those that originate from within an organism, tissue or cell.

Question 39

Q

Immunology - Cellular immunity, T-lymphocytes and hte MCH structure of the cells.
MHC 1

Answer

A

Pressent on the surface of the nucleated cells.
Endogenously produces antigens.
Recognized by the cytotoxic Tc-Ly.
The present fragments of non self to the cytotoxic T cells

Question 40

Q

Immunology - Cellular immunity, T-lymphocytes and hte MCH structure of the cells.
MHC 2

Answer

A

Pressent on the surface of the antigen presenting cells, like macrophages, dendrite cells, ect.
MHC2 + forreign antigens are recognized by TH-Ly (helper)

Question 41

Q

Immunology - Cellular immunity, T-lymphocytes and hte MCH structure of the cells.
What is autocrine

Answer

A

Denoting a mode of hormone action in which a hormone binds to receptors on and affects the function of the cell type that produces it.

Question 42

Q

Immunology - Cellular immunity,
Development (T-lymphocytes)
Phases

Answer

A

The first phase is an antigen independent phase is when the pre-T-lymphocytes became the virgin T-lymphocytes, and on the surface there will be an Ig-like molecule (TCR) app airing against a certain possible antigen structure.

The antigen dependent phase begins when the T-lymphocytes goes into the bloodstream.

If the Ti-cells carriers a CD4 and a TCR, the cell will be able to recognize an antigen,
which is presented by a APC cell and an MHC 2 antigen.

There will be a linkage, the AP ells and the Ti-cells that will result in the primary stimulation.

Then there is a blastic transformation due to the interlaukulin secretion.

If the virgins have a CD8 antigen expressed beside the MHC 1, and after the blastic transformation, a T cytotoxic is created. This kills tumors and virus antigen carrying cells.
Other T-cells is also created.
There are a lot of T-cells that dies under this process, because they do not recognize the MHC.

Question 43

Q

Molecular aspects of muscle contraction and electromechanical coupling.
General
Contraction

Answer

A

Is caused by sliding of actin and myosin fibers on each other, forming an actin.myosin complex.

Question 44

Q

Molecular aspects of muscle contraction and electromechanical coupling.
General
Individual movement of cells/extension;

Answer

A

Caused by exchange of microtubular and actin polymerization/depolymerization if presence of ATP

Question 45

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Sacromeres

Answer

A

Located between two Z.bands.
Less refractive isotopic: I, it has only thin fibers.
Strongly refractible anisotopic: A-band, thick and thin fibers.
In the middle the myosin fibers are twisted up:
M-zone surrounded by H-zone, only thick fibers.
There are three new proteins in the sarcoma

Question 46

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Sacromeres
The three new proteins in sacroma

Answer

A

Titin
Nebulin
Alpha actinin-complex

Question 47

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Sacromeres
The three new proteins in sarcoma
Titin

Answer

A

Titin: 
The biggest protein in the body
contains one spring like protein chain.
Z-line myosin bundles
Ensure a precise return of actin and myosin bundles to their original position even after extensive stretch.

Question 48

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Sacromeres
The three new proteins in sarcoma
Nebulin

Answer

A

Determine the direction and placement of actin polymerization during the development of sarcomeres.

Protects the development actin fibers from rearranging effect of other actin-binding proteins.

Question 49

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Sacromeres
The three new proteins in sarcoma
Alpha-actinin

Answer

A

Creates z-bands

Question 50

Q

Molecular aspects of muscle contraction and electromechanical coupling.
The actin complex

Answer

A

Figure
The main component is G-actin that form a double helix.
Tropomyopsin is on the surface of the helix

In resting state: Tropomyopsin covers the active site on the surface of the actin molecule.

Masking takes place when two troponin-complex, binds to tropomyosin.

The Tn-I and Tn-T holds the tropomyosin in position, but the Tn-C (calcium binding) is free in resting condition, but when a calcium binds to the Tn-C, following conformations changes it, displaces tropomyosin fibers.
Tropomyocin then slides into the groove of the two striated actin helix and the myosin-binding amino acid sequences become uncovered on the surface of actin.

Question 51

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Myosin

Answer

A

Consist of 6 elementary myosin molecules

Two heavy chains of an elongated alpha helix
- And a globular part (binding site)
Two light chains, connected to the head region of the alpha helix.
The head region can bend max 45* and it is responsible for the ATP binding and splitting.
3 types of ATPase and this determine the speed of the ATPase activity, aka the efficiency of the entire sarcomere.

Question 52

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Myocytes

Answer

A

The sarcolemma (plasmalemma) of the myocytes has a several regions of discs and the transverse tubular system (T-tubules).

The T-tubules permit the conduction of electrical impulses.

The sarcoplasmic reticulum regulates the intercellular calcium intake.
Triad: Comprised of two SR and a T-tubule in between.

Question 53

Q

Molecular aspects of muscle contraction and electromechanical coupling.
The slide filament mechanism

Answer

A

Sliding of myosin microfilaments and actin on each other.
The myosin shift 45* which occurs after the development of connections between myosin head and actin microfilaments.

Calcium ions binds to the TnCs. Tropomyosin will move. Actin and Myosin microfilaments will bind to each other..
ATPase is activated. Sliding and contraction released.
Myosin head binds ATP. If Ca2+ is present, everything starts over again.

Question 54

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Cross bridge cycle

Answer

A

Development of the calcium signal.
Calsium is released from the sarcoplasmic reticulum after neutral action potential is transmitted to the muscles.

At the same time:
Rising of Ca2+ levels trigger a number of calcium repumping.
Results in calcium level going down. = Calcium trancient

Question 55

Q

Molecular aspects of muscle contraction and electromechanical coupling.
Calcium transient

Answer

A

Calcium ionsactin-myosin connection is formed
No more ATP = Myosin cannot dissociate from actin and the muscles are in a contractive state: Rigor moris

The individual myosin head needs to work asynchronously, to make the whole muscle contract.

Question 56

Q

Molecular aspects of muscle contraction and electromechanical coupling.
The L-type

Answer

A

The voltage gated in the Ca2+ - channels in the T tubule.
When the action potential reaches the L-type it open.

Ca release through the function of the triad
Activation of muscle proteins
Muscle contractions
Relaxation

We also need to remove the calcium from the intracellular fluid = The myoplasmic calcium removal mechanism.

Most importaint: Na ion/ Ca ion anti porter between the myolemma and the EC space removing calcium with a secondary active transport.

There are no active calcium pumps that uses ATP

Question 57

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debet.
Muscle tissue contains….

Answer

A

Mainly water: 75%
Proteins: 20%
Majority either contractile or passive structure proteins.
Less dominant: Albumun and enzymes

Question 58

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debet.
What is macroscopic elements

Answer

A

They have a great significance in execution of locomotion.
The direction of shortening is not in line with the macroscopic of the muscle.

Only the component of the total work done is manifested in physical work which is in line with the direction of macroscopic contraction.

Question 59

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debet.
The red muscle (tonic) fibers

Answer

A

Thin muscle fibers, large amount of myoglobin, most prominent muscles in individuals that need a long muscle capacity, etc. long distance runners.
They have slow contraction, no accumulation of lactic a cidm oxidative condition. short muscle fibers.

Question 60

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debet.
The white muscle (phasic) fibers

Answer

A

Fast contraction,
work under anaerobic conditions.
Thick muscle fibers
Lactick acid accumulates by glycolysis

If we innervate the red muscles with the neurons of the neighboring white muscle, the red muscles will after a long regeneration period, become white inn ann the features.

Gens may also have some impact because the occurrence of myosin fibers may considerably vary during selection.

The slow LC-3 chains, may substitute the very fast LC-2.

Question 61

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debet.
Mucle hypertrophy

Answer

A

An increase in size of skeletal muscles through a growth in size of its component cell.
There are two factors that contribute to hypertrophy.

The mass of individual fibers are increased
Increase in actin and myosin filaments and increase of energy producing enzymes.

Question 62

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debet.
Types of Muscle hypertrophy

Answer

A

Sacroplasmic hypertrophy:
Increase muscle glycogen storage

Myofibrillar hypertrophy:
Focuses on increased myofibril size

Question 63

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debt.
Remoddeling of slow muscles

Answer

A

Nutrient and energy supply increased.

Myoglobin content of fiber, mitochondria etc. increased

Question 64

Q

Types of striated muscles, energy sources of muscle functioning, oxygen debt.
Energy source

Answer

A

Is one ATP and 1 creatinin-phosphate.
If we use more ATP than we have, it leads to oxygen debt.

Glycogen is the main energy source for fast movement, and glucose is the main energy for long term contraction.

During heavy physical activity, energy source is always anaerobe glycolysis.

After the hard physical work the muscles will try to consume more oxygen, so the oxygen consumption will go up, because the re-synthesize is going under aerobic conditions.

The stores used up by anaerobic mechanism are re-synthesized during rest by oxygen consumption.

Answer 65

A

The elements of the contraction are the sacromer.

Answer 66

A

Isotonic contraction

Isometric contraction

Answer 67

A

Working against increasing tension

Answer 68

A

The muscles adjusted with preload and then the isotonic contraction

Answer 69

A

The contraction starts as an isotonic contraction, but is then blocked off by something, isometric contraction.

When the correct stimulus is applied, the muscles answers with contraction. During the contraction of the contraction component : 1. the serial elastic components will reach equilibrium with the load and followed by shortening with constant tension.

Answer 70

A

Addition of skeletal muscles contraction forms caused by different reasons.
The ALL or NON law only apply to single muscle fibers.
If there is not enough stimulus, no contraction.

Answer 71

A

In a muscle when more and more fibers contract due to the increasing in action potential.

Answer 72

A

Representive stimuli there will be additional Ca release before the end of Ca transient

Answer 73

A

If the new stimuli arrive immediately after the end of the twitch the new contraction have increasing amplitudes.
Due to increase efficiency of ion gates.

Answer 74

A

Additive effect of all the summation forms.
Two forms:
- Incompleete
- Compleete

Length - tension diagram: working range and power of the muscle: Heat production and muscle fatigue.
Each skeletal muscle is under a certain degree of strength.

Length X tension = work.

The length tension curve can be obtained when one stimulated muscles which are passively stretches with varying loads.

Answer 75

A

If we passively stretch muscle A, B, C distance above resting length and in these positions we stimulate the muscle with maximal signal stimuli, 2um is the optimal resting length for smooth muscles.

Answer 76

A

No shortening is possible here so we can only measure the extent of tension.
In skeletal muscle, length measured under maximum power is identical to the normal working range of the muscle.

Answer 77

A

The less the tension is the higher the velocity becomes velocity*tension=power.
Unloaded and Overloded muscles

Answer 78

A

Muscle contract with maximal velocity.

Answer 79

A

Contract with zero velocity. It gives us an idea about the power of the muscle. Under intermediate load the muscle contraction can be optimal fast.
Intermediate tension and intermediate velocity - result in MAXIMAL POWER

Answer 80

A

During contraction ATP breakdown while after contraction synthetic process create heat

Answer 81

A

Produce more heat during restitution. Because of the huge O2 debt created during contraction and the restitution creates heat.

Answer 82

A

Heat production mostly occurs during contraction.
Activation heat: Cam release + Myosin activation.
Contraction heat:
Sliding filaments mach and Ca re-pumping during relaxation.

Answer 83

A

Depend on the ratio of phasic and tonic fibers.
IN VITRO FATIGUE:
Lack of O2 and lack of transmitters.

IN VIVO FATIGUE:
Peripheral- decrease of energy sources and increase in metabolic products
Central fatigue- exhausting of motor units.

Answer 84

A

A form of active transport in which a cell transports molecules (such as proteins) into the cell (endo+cytosis) by engulfing them in an energy-using process.
Opposite: Exocytosis

Answer 85

A

Synthesis of vesicles in the golgi of motoneuronflow of vesicles toward the knobthe synthesis of the acetylcholine in the cytosolthe action potential tuning through. The axon opens voltage gated Ca channels and the Ca influx from the EC increase the Ca-concentration and initiate the acethylcholinge containing vesicles

Answer 86

A

Exocytosis:
Acetylcholine gets into the synaptic space,
Some disappears
Most is bound to receptors
Small amount of end plate potential is produced, but there is not enough to create a action potential.
Extensive exocytosis result in the lack of vesicle and will be refilled with acetylcholine.

Answer 87

A

Endocytosis:
Stimulated by clathrin.
Traps a section of the membrane and carries into  the cell.
Fine movement
1:1 ratio of nerve fibers
Other skeletal muscles: 1:100

Answer 88

A

Acetylcholine: Inactivetivated, open, closed

Nicotinc Acetylcholine:
Two alpha and two delta subunits, blocks the effect of certain competitive blocks.

Increase in EC magnesium concentration antagonize acethylcholine receptors and blocks function of the sarcomere.

Answer 89

A

The action potential is generated and runs to the myoneural junction,

The acetylcholine containing vesicle open up at the synaptic knobs Ach to Ach-R of sacrolemma.

The Ach channels opens up
Na+ enters through the channels and the end potential + action potential is generated.

The action potential activated the sarcoplasmic reticulum through the t system.
The Ca is released in the sacrolemma, and the contraction starts.

Answer 90

A

Fusimotor system:
There are modified fibers that play a role in the stretch-detection and the fine tuning of muscle cells.
We can find receptors in the Golgi tendon receptors.

We have:
Static fibers
Dynamic fibers
Efferent fibers
Afferent fibers
aplha-efferent
gamma-efferent
co-activation system

Answer 91

A

Static fibers:

Sensitive to length change of tension

Answer 92

A

Sensitive to length and velocity of tension

Answer 93

A

From the central nerve system.
The longer away from the CN, the thinner the fibers
It uses the greek alphabet.

Answer 94

A

From the periphery
The large alpha-motor neurons innervate the phasic muscle.
Small alpha-motorneurons innervated the tonic muscles. Small adjustments.

Answer 95

A

Makes the big contractions.

Servomechanism:
Without the influence from the cerebral motor center.

Answer 96

A

Fine adjustments

Answer 97

A

Co activation mechanism:
Both alpha and gamma-efferent.
Rapidly corrects any error in motor command execution.

Answer 98

A

The myosin and the action are less organized and the muscle contraction are not voluntary.

Answer 99

A

Multiunit:
The individual fibers are not connected with gap junction
Single fibers or small groups are under direct neural control.
Capable for fine movements.

Single units:
Hundreds of units connected with a gap junction.
The nerves only innervate the cells on the surface.

Answer 100

A

The sliding activated by myosin light chain kinase.
The contraction is continuous until there is another enzyme
The SM is not based on ALL or NOTHING law
They are usaly in weak contraction all the time.
No transverse tubular system.
The action potential occurs only in single units.

Brainscape's Knowledge GenomeTM

Midtterm nr 2 Flashcards

Brainscape's Knowledge Genome^TM