Choose the letter from the figure that most appropriately corresponds to the structure:
I.A-band II. I-band III. Sarcomere IV. H-zone
V.Myosin VI.Actin, Troponin, Tropomyosin VII. Z –line
(1) I - E, II - D, III - F, IV - G, V - B, VI- C, VII - A
(2) I - E, II - D, III - C, IV - G, V - B, VI - A, VII - F
(3) I - E, II - D, III - F, IV - G, V - C, VI - A, VII - B
(4) I - E, II - D, III - F, IV - A, V - B, VI - C, VII - G
The functions of tropomyosin in skeletal muscle include:
(1) Sliding on actin to produce shortening
(2) Release Ca+2 after initiation of contraction
(3) Acting as "relaxing protein" at rest by covering up the sites where myosin binds to actin
(4) Generates ATP
Ca+2 bind ________ in the skeletal muscles and leads to exposure of the binding site for ________ on the filament _______:
(1) Troponin, myosin, actin
(2) Troponin, actin, relaxin
(3) Actin, myosin, troponin
(4) Tropomysin, myosin, actin
Following is the figure of actin (thin) filaments. Identify A, B and C:
1. A - Tropomyosin, B - Troponin, C - F-actin
2. A - Troponin, B - Myosin, C - Tropomyosin
3. A - Troponin, B - Tropomyosin, C - Myosin
4. A - Troponin, B - Tropomyosin, C - F-actin
The above figure is related with myosin monomer (meromyosin). Identify A to C:
(1) A - head, B - cross arm, C - GTP binding sites
(2) A - head, B - cross arm, C - Ca+2 binding sites
(3) A - head, B - cross arm, C - ATP binding sites
(4) A - cross arm, B - head, C - ATP binding sites
The action potential that triggers a muscle contraction travels deep within the muscle cell by means of:
(1) Sarcoplasmic reticulum
(2) Transverse tubules
(3) Synapse
(4) Motor end plates
ATP provides energy for muscle contraction by allowing for:
1. An action potential formation in the muscle cell
2. Cross-bridge attachment of myosin to actin
3. Cross-bridge detachment of myosin from actin
4. Release of Ca+2 from sarcoplasmic reticulum
A motor unit is best described as:
(1) All the nerve fibres and muscle fibres in a single muscle bundle
(2) One muscle fibre and its single nerve fibre
(3) A single motor neuron and all the muscle fibres that it innervates
(4) It is the neuron which carries the message from muscle to CNS
Electrical excitation in a muscle fibre most directly causes:
(1) Movement of tropomyosin
(2) Attachment of the cross bridges to actin
(3) Release of Ca+2 from sarcoplasmic reticulum
(4) Splitting of ATP
The energy for muscle contraction is most directly obtained from:
(1) Phosphocreatine
(2) ATP
(3) Anaerobic respiration
(4) Aerobic respiration