Muscle

Question 1

What are the three major types of muscle?

Answer 1

Skeletal, cardiac and smooth.

Question 2

What are features of skeletal muscle?

Answer 2

Voluntary, attached to the bone, striated and uninuclear.

Question 3

What are the features of cardiac muscle?

Answer 3

Involuntary, not attached to the bone and a specialised form of skeletal muscle. Mae up on intercalated discs.

Question 4

What are the features of smooth muscle?

Answer 4

Involuntary, not attached to the bone and myocytes with a fusiform shape (spindle).

Question 5

What is the sarcomere?

Answer 5

The functional unit of the skeletal muscle (Z line to Z line).

Question 6

What is the A band?

Answer 6

Thick filaments of myosin that are found at the centre of the sarcomere.

Question 7

What is the I band?

Answer 7

Contains the thinner filaments actin that do not overlap with the myosin. They are found either side of the A ban with the Z disc in the centre.

Question 8

What is the M line?

Answer 8

Proteins that link the central regions of the thick filaments.

Question 9

What is the H zone?

Answer 9

The light area between the ends of the thin filaments that is found in the centre of the sarcomere.

Question 10

What is the Z line?

Answer 10

The network of proteins that anchor the thin filaments.

Question 11

What lies on top of actin?

Answer 11

A band called tropomyosin.

Question 12

What does troponin do?

Answer 12

Connects the tropomyosin to the actin and blocks the receptors so that myosin cannot bin. This is the case when the muscle is not contracting.

Question 13

What binding sites do myosin heads contain?

Answer 13

Ones for ATP and for actin.

Question 14

What role does calcium have in muscle contraction?

Answer 14

It causes a conformational change to move the tropomyosin so a cross bridge can form and contraction can occur.

Question 15

What are thin filaments made up of?

Answer 15

G-actin - this forms protein chains that are called filament-actin.

Question 16

What is the first step in the sliding filament mechanism?

Answer 16

An increase in calcium in the muscle energises the cross-bridge position - ADP and phosphate are attached to the molecule.

Question 17

What is the second step in the sliding filament mechanism?

Answer 17

As the levels of calcium increase they bind to the troponin complex and cause a conformational change. Troponin moves away from the binding site and pulls tropomyosin with it, which exposes the binding site

Question 18

What is the third step in the sliding filament mechanism?

Answer 18

The binding site is exposed and is in an energised position and the myosin head can now bind to the actin.

Question 19

What happens when the myosin head is bound in the sliding filament mechanism? (fourth step).

Answer 19

ADP and phosphate are released from the head and the myosin head changes shape to 45 degrees and the affinity for ATP increases.
The bending of the head causes the filament to move.

Question 20

What happens after the myosin head changes shape? (fifth step)

Answer 20

An ATP molecule binds which causes the head group to detach from the actin filament and hydrolyses the ATP to re-energise the head.

Question 21

What is the final step in the sliding filament mechanism?

Answer 21

The myosin head returns to its original position of 90 degrees from the 45 degrees.

Question 22

How is the synaptic cleft adapted for efficient binding of neurotransmitter?

Answer 22

Lots of folds to increase the surface area.

Question 23

What happens to choline after ACh has been broken down?

Answer 23

It is recycled and goes back into the terminal.

Question 24

What happens to acetate after ACh has been broken down?

Answer 24

It is transferred by choline acetyl transferase, which transfer it onto choline to form ACh ready to be released.

Question 25

What does tubocurarine do?

Answer 25

It blocks ACh from binding to the receptor.

Question 26

What do anticholinesterases do?

Answer 26

Prevent ACH being broken down and hemicholinium prevents sodium travelling through a choline carrier.

Question 27

What is the sarcoplasmic reticulum a store of?

Answer 27

Calcium.

Question 28

What are the purpose of T tubules?

Answer 28

They project down into the reticulum and means that action potentials can travel deep down into the muscle fibre/cell.

Question 29

What happens after action potentials are spread across the muscle cell into the T tubules?

Answer 29

Depolarisation spreads down the tubules and activates the DHP receptor. DHP receptor changes shape and interacts with the Ryanodine receptor. The change in shape is transmitted from DHP to the ryanodine receptor which changes shape and causes the calcium channel to open. Yhe sarcoplasmic reticulum releases the calcium into the cytosol which activates the cross-bridge cycling.

Question 30

How is calcium recycled?

Answer 30

Calcium ATPase aids the transfer across the sarcoplasmic reticulum membrane back into the lumen of the reticulum, along with ATP as a source of energy.

Question 31

What is Myasthenia Gravis?

Answer 31

A condition that affects skeletal muscle - if the individual exercises, the muscle starts to lose the ability to contract. It is an autoimmune disease - antibodies destroy ACh receptors.
ie dysfunctional skeletal muscle

Question 32

How can individuals suffering from Myasthenia Gravis be treated?

Answer 32

AChesterase inhibitors which increases the time ACh is in the synapse so there is a greater chance of contraction occuring.

Question 33

What is the sarcoplasmic reticulum

Answer 33

Homologous to endoplasmic reticulum in other cells

Ca2+ store in muscle

Question 34

What type of neurones innervate skeletal muscle

Answer 34

motor

Question 35

What neurotransmitter do motor neurones release

Answer 35

Ach

Question 36

The region directly under the axon terminal of a motor neurone is called ……………. and the junction between them is ……..

Answer 36

motor end plate

neuromuscular junction

Question 37

relative striation of different types of muscle

Answer 37

skeletal is striated
cardiac has striations
smooth has no striations

Question 38

what is a myofibril

Answer 38

individual muscle cell formed from bundles of actin and myosin