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zig zag band of dense material that is called Z lines. Sarcomeres have bands of filaments. The process of muscle contraction is stimulated by nerve impulses conducted via motor neurons. At the axon terminal there are vesicles containing neurotransmitter, i.e. acetylcholine which move across the synapse due to active transport promoted by high concentration of sodium and potassium. Increases of sodium concentration allow the sliding filament mechanism of muscle contraction. Huxley and Huxley proposed molecular mechanism of muscle contraction. This theory is called the sliding-filament theory of muscle contraction. Electron micrographs reveal cross-bridges that extend from the thick to the thin filaments, suggesting a mechanism that might cause the filaments to slide. Myosin heads of thick filament bind with actin of thin filament to form cross-bridge with the addition of ADP. ATP breaks to ADP and Pi and make the cross-bridge. This cross bridge pulls thin filaments. Therefore sliding of the filaments produce muscle contraction. In order to contract muscle, the tropomyosin must be moved out of the way so that the myosin heads can bind to the uncovered actin attachment sites. The regulatory interactions between troponine and tropomyosin are controlled by the calcium ion (Ca++) concentration of the muscle cell cytoplasm. Muscle fibers store Ca++ in a modified endoplasmic reticulum called a sarcomere reticulum or SR. When a muscle fiber is stimulated to contract, an electrical impulse travels down into the muscle fiber through transverse tubule. Muscle contractions are initiated by action potentials from motor neurons arriving at the neuromuscular junction. Skeletal muscular system may be classified on the basis of function. It consists of prime movers, antagonists muscle and synergists. There are seven properties of muscles such as excitability, contractibility, extensibility, elasticity, conductibility, threshold and refractory period. Red muscle contains very high concentration of hemoglobin while white muscle contains very low concentration of hemoglobin. Red muscles get energy by aerobic respiration but white muscles obtain energy by anaerobic respiration. Red muscle accumulates little lactic acid whereas white muscle accumulates high level of lactic acid. Twitch is a response, which help to contract and relax the muscle, if a single electric shock is being given. Increasing the stimulus voltage increases the strength of the twitch up to maximum. This cumulative response of twitch is called summation. If the stimulus is repeated, the muscle continues spasmodic contractions that increase in intensity called treppe. If the muscle is not allowed to relax due to repeated stimulation, the twitch contraction will produce a powerful continuous contraction called tetanus. Muscle fatigue refers to the use-dependent decrease in the ability of a muscle to generate force. The reason for fatigue is not entirely understood. In death, the cell can no longer produce ATP, and therefore the cross-bridge cannot be broken – this causes muscle stiffness of death called rigor mortis. Tension of the muscle is required to move an object when the object is moving the muscle shortens as the skeletal joints moves. No further tension is required and this contraction is called isotonic. When lifting a heavy object the tension of the muscle must be increased before the object can be moved. The muscle length stays the same although contraction is occurring. This contraction is called isometric.

 

Terms to remember

 

Actin

 

One of the major proteins that makes up vertebrate muscle

 

Creatine phosphate

 

This high energy compound present in the muscle and it helps to convert ADP to ATP.

 

Ligament

 

Connective tissue of great tensile strength attaches bone to bone.

 

Myology

 

Study of muscles

 

Myosin

 

One protein component of microfilaments, a principal component of vertebrate muscles

 

Myosin ATPase

 

An enzyme that hydrolyzes ATP into ADP and Pi with the release of energy

 

Neuromuscular junction

 

The structure formed when the tips of axon contact (innervate) a muscle fiber.

 

Sarcolemma

 

The specialized cell membrane in a muscle cell

 

Sarcomere

 

Fundamental unit of contraction in skeletal muscle, repeating bands of actin and myosin that appear between two Z lines

 

Summation

 

Repetitive activation of the motor neuron resulting in maximum sustained contraction of muscle

 

Synovial fluid

 

Fluid present at the synovial joints in the synovial cavity such as elbow, shoulder etc.

 

Tendon

 

A collagen-containing band of tissue that connects a muscle with a bone

 

Questions for self- assessment

 

Very short answer questions 1 mark each

 

What is muscle twitch? (H.P.S.E.B. 2000) Which myofilaments slide in a sarcomere during contraction? What lubricates the freely movable joints at the shoulder? (C.B.S.E. 1994) Name the chemical that causes fatigue in the muscle. (C.B.S.E. 1997) Name the kind of skeleton joint which permits movements in a single plane only.(C.B.S.E. 1995) Name the functional contractile unit of the muscle. (C.B.S.E. 1997) Which type of movable joint is the shoulder joint? (C.B.S.E. 1996) Which type of movable joint makes the hip joint? (C.B.S.E. 1996) Mention one significant difference between muscle twitch and tetanus.(C.B.S.E. 1995) What property of muscle fiber enables them to cause movement? (C.B.S.E. 1995) Name the filaments that cause cross-bridges during muscle contraction. (C.B.S.E. 1995) Name the tissue which connects muscle to a bone. (C.B.S.E. 1995) Which term do you use for the muscles, which draw a bone away from the body midline? (C.B.S.E. 1994) Name the thin and thick protein of muscle fibers. (C.B.S.E. 1993, 95) Name two special proteins which constitute the contractile filaments of muscle fibers. (C.B.S.E. 1992) Give the term for a continued state of contraction caused by many rapidly repeating stimuli in a muscle. (C.B.S.E. 1992) What are two types of straited muscle filaments? (C.B.S.E. 1992) Give one example each of fibrous joint and cartilagenous joints.(C.B.S.E. 1992) Name the type of movable joint at the knee or at the elbow.(C.B.S.E. 1991, 93, 95) What is synovial fluid? (C.B.S.E. 1987) Name the two types of myofilaments in a sarcomere. What is myoglobin? Name the protein which constitutes I-band and A-band. Name one set of muscles which work antagonistically. Name the theory proposed by Huxley and others for the muscle contraction.

 

Answer

 

(1) See text. (2) Actin myofilaments. (3) Synovial fluid. (4) Lactic acid (5) Hinge joint. (6) Sarcomere. (7) Ball and socket type. (8) Ball and socket type. (9) See text. (10) Excitability and conductivity. (11) Actin and myosin filaments. (12) Tendon. (13) Abductors. (14) Myosin. (15) Actin and myosin. (16) Tetanus. (17) Actin and myosin. (18) Between bones of cranium, joints between the centra. (19) Hinge joint. (20) A lubricating fluid present in synovial cavity of movable joints. (21) Primary, thick or myosin, myofilaments and secondary, thin or actin myofilaments. (22) When red blood cell present in the muscle then it is called myoglobin. RBC of muscle combine with O2 to form oxy-myoglobin. This oxy-myoglobin release O2 during muscle contraction and become myoglobin. (23) Actin and myosin. (24) Biceps and triceps. (25) Sliding filament theory of muscle contraction.

 

Short answer questions 2 marks each

 

Which causes muscle fatigue? How is it removed? (H.P. 2002) Why are movement and locomotion necessary among animal? Differentiate between tendon and ligament. What actually leads to shortening of a sarcomere? What is summation? Explain important features of synovial joints. What is joint? Give examples of ball and socket and hinge joint. Explain and differentiate the terms movement and locomotion. Where from muscle gets energy for contraction? Differentiate between sarcoplasm and sarcolemma. What are isotonic and isometric contractions? Why are muscles rich in the compound creatin phosphate? Differentiate between fibrous joints and cartilagenous joints. What cause muscle fatigue? How it is removed? Differentiate between actin and myosin. What is summation? What is myosin ATPase? Differentiate between H-band and M-band. What is knee joint? What is sarcomere?

 

Short answer questions 3 marks each

 

Explain the sliding filament theory of muscle contraction. (C.B.S.E. 2001) What make the synovial joint freely movable? List the various types of synovial joints. (C.B.S.E. 1999) Explain the principle of antagonistic muscles. Give one example of such muscles.(C.B.S.E. 1999) Write short note on muscle fatigue. What is the biological significance of (a) myoglobin (b) phospho creatinine (c) red bone marrow. How does the body muscle act? What is the significance of locomotion? Write three points about it. Differentiate between red and white muscle. Distinguish between  (a) Fibrous joints and cartilagenous joints. (b) Active and myosin.  (c) Isotonic and isometric contraction of muscle. What is antagonistic muscle? Explain with example. How are red muscle fibers specialized for sustained work over a prolonged period? How does calcium affect the process of muscle contraction? How does skeletal muscle contract? How are thick and thin filaments arranged in a muscle fiber? What are biceps and triceps?

 

Long answer questions 5 marks each

 

1.  Write briefly the biological importance of the following :

 

           (a) Myoglobin

           (b) Active and myosin filament

           (c) Synovial joints

           (d) Fibrous joints

           (e) Lactic acid (C.B.S.E. 1999)

 

2.  What chemical changes occur during contraction of a skeletal muscle? (C.B.S.E. 1995)

3.  Describe the various kinds of skeletal joints in human body according to their mobility, giving one example each. (C.B.S.E. 1994)

4.  How does the muscle shorten during its contraction and lengthen during its relaxation? Explain with diagram. (C.B.S.E. 1991)

5.  How is the structure a sarcomere suitable for the contractility of the muscle? Explain its function according to sliding filament theory. (C.B.S.E. 1990)

6.  Differentiate between

 

          (a) Tendon and ligament.

          (b) White and red muscle fibers.

          (c) Fixed joints and synovial joints.

          (d) Actin and myosin.

 

7.   Enumerate the events of muscle contraction.

8.   How is energy supplied for muscle contraction.

9.   Describe the structure of striated muscle.

10. Name only different types of joints.

11. Distinguish between

 

     (a) Muscle twitch and tetanus

     (b) Ball and socket-point and hinge joint. (H.B.S.E.B. 2001)

 

12. Answer the following briefly :

 

     (a) How does the muscle shorten during its contraction and lengthen during its relaxation?

     (b) How biological functions are served by the skeletal system?

     (c) Why a red muscles fiber can work a prolonged period while a white muscle fiber suffers from fatigue after a shorter work?

     (d) Where from the muscle gets energy for its contraction. (N.C.E.R.T.)

 

13. Match the items of Column A with B.

 

 

Column A

 

Column B

 

1.

Myoglobin

Skeletal muscle

2.

Actin

Muscle fiber filament

3.

Planar

Neurotransmitter

4.

Acetylcholine

Red muscle fiber

5.

Prime movers

Synovial joint

 

14. Differentiate between red and white muscle fibers with their examples.

15. Enumerate the events of muscle contraction.

16. Write briefly the biological importance of the following :

 

     (a) Fibrous joints;

     (b) Synovial joints;

     (c) Actin and myosin filaments;

     (d) Lactic acid;

     (e) Myoglobin;

 

17. What is a joint? Write its type with examples.

18. Describe in brief sliding-filament theory of muscle contraction.

19. Write the differences between :

 

     (a) Actin and myosin;

     (b) Red and white muscle;

     (c) Movable and immovable joints.

 

20. Match the items of Column A with B.

 

 

Column A

 

Column B

 

1.

Myoglobin

Smooth muscle

2.

Involuntary

Tropomyosin

3.

Third class lover

Red muscle

4.

Thin filament

 

Imprint

Publication Date: 03-07-2016

All Rights Reserved

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