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Important Diagrams: Locomotion and Movement | Biology Class 11 - NEET PDF Download

1. Structure of Skeletal Muscle

Skeletal muscles consist of muscle bundles (fascicles) held together by fascia, containing muscle fibres lined by sarcolemma and rich in myofibrils with alternating dark and light bands due to actin and myosin proteins. The sarcoplasmic reticulum stores calcium ions, and the muscle fibre is multinucleated.

Diagrammatic cross sectional view of a muscle showing muscle bundles and muscle fibresDiagrammatic cross sectional view of a muscle showing muscle bundles and muscle fibres

2. Sarcomere

The light I-band contains actin (thin filaments) and is bisected by a Z-line, while the dark A-band contains myosin (thick filaments) with an M-line at its center. The alternating arrangement of A and I bands forms the myofibrils. The segment between two Z-lines is a sarcomere, the functional unit of contraction. In a resting state, the thin filaments partially overlap the thick filaments, leaving a central H-zone in the thick filaments.

Diagrammatic representation of (a) anatomy of a muscle fibre showing a sarcomere (b) a sarcomereDiagrammatic representation of (a) anatomy of a muscle fibre showing a sarcomere (b) a sarcomere

3. Structure of Contractile Proteins

Each actin filament consists of two helically wound F-actins with tropomyosin and troponin proteins, where troponin masks myosin-binding sites. Each myosin filament is made of meromyosins, with the globular head (HMM) acting as an ATPase and containing binding sites for ATP and actin, forming cross arms.

(a) An actin (thin) filament (b) Myosin monomer (Meromyosin)(a) An actin (thin) filament (b) Myosin monomer (Meromyosin)

4. Mechanism of Muscle Contraction

  • Sliding Filament Theory: Muscle contraction occurs as thin actin filaments slide over thick myosin filaments.
  • Initiation:A signal from the central nervous system (CNS) travels via a motor neuron. The motor neuron and connected muscle fibres form a motor unit. The junction between the neuron and muscle is called the neuromuscular junction or motor-end plate.
  • Neural Signal: The signal reaches the junction, releasing acetylcholine, a neurotransmitter. This generates an action potential in the muscle fibre's sarcolemma (membrane). The action potential spreads, causing the release of calcium ions (Ca²⁺)into the sarcoplasm.
  • Calcium and Troponin: Increased calcium binds to troponin on actin filaments, exposing myosin-binding sites by removing the mask.
  • Cross-Bridge Formation: Myosin heads bind to the exposed actin sites, forming cross-bridges using energy from ATP hydrolysis. Myosin heads pull actin filaments toward the center of the A-band, shortening the sarcomere (contraction).
  • Changes During Contraction: I-bands shorten, while A-bands retain their length.
  • Relaxation: Myosin releases ADP and P₁, detaching from actin, returning to its relaxed state. New ATP binds to myosin, breaking the cross-bridge, and the cycle continues until calcium is pumped back into the sarcoplasmic reticulum. The sarcomere returns to its original position, causing muscle relaxation.
  • Fatigue: Repeated muscle activation leads to lactic acid accumulation due to anaerobic glycolysis, causing fatigue.
  • Muscle Types: Red fibres: High in myoglobin, many mitochondria, use oxygen for aerobic respiration, and appear reddish. White fibres: Low in myoglobin, fewer mitochondria, rely on anaerobic processes for energy, and appear pale.

Stages in cross bridge formation, rotation of head and breaking of cross bridgeStages in cross bridge formation, rotation of head and breaking of cross bridge

Sliding-filament theory of muscle contraction (movement of the thin filaments and the relative size of the I band and H zones)Sliding-filament theory of muscle contraction (movement of the thin filaments and the relative size of the I band and H zones)

5. Axial Skeleton

The axial skeleton consists of 80 bones along the body’s main axis, including the skull, vertebral column, sternum, and ribs. The skull has 22 bones, with 8 cranial bones protecting the brain and 14 facial bones forming the front. The hyoid bone is located at the base of the buccal cavity, and each ear contains three ear ossicles (malleus, incus, stapes). The vertebral column has 26 vertebrae, divided into cervical, thoracic, lumbar, sacral, and coccygeal regions, protecting the spinal cord. The sternum is a flat bone, and the rib cage consists of 12 pairs of ribs, with 7 true ribs, 3 false ribs, and 2 floating ribs, all contributing to the thoracic structure.

Diagrammatic view of human skullDiagrammatic view of human skull

Vertebral column (right lateral view)Vertebral column (right lateral view)

Ribs and rib cageRibs and rib cage

6. Appendicular Skeleton

The appendicular skeleton consists of the bones of the limbs and their girdles, with each limb containing 30 bones. The forelimb includes the humerus, radius, ulna, 8 carpals, 5 metacarpals, and 14 phalanges. The hind limb consists of the femur, tibia, fibula, 7 tarsals, 5 metatarsals, and 14 phalanges, with the patella (kneecap) covering the knee. The pectoral girdle, made up of the clavicle and scapula, connects the upper limbs to the axial skeleton, while the pelvic girdle, composed of two coxal bones formed by the fusion of ilium, ischium, and pubis, connects the lower limbs. The pelvic bones meet at the pubic symphysis.

Right pectoral girdle and upper arm. (frontal view)Right pectoral girdle and upper arm. (frontal view)

Right pelvic girdle and lower limb bones (frontal view)Right pelvic girdle and lower limb bones (frontal view)

Diagram Based Questions NEET

Q1:  Which of the following statements are correct regarding skeletal muscle? (NEET 2023)
A. Muscle bundles are held together by collagenous connective tissue layer called fascicle.
B. Sarcoplasmic reticulum of muscle fibre is a store house of calcium ions.
C. Striated appearance of skeletal muscle fibre is due to distribution pattern of actin and myosin proteins.
D. M line is considered as functional unit of contraction called sarcomere.
Choose the most appropriate answer from the options given below:
(a) A, B and C only 
(b) B and C only
(c) A, C and D only 
(d) C and D only

Ans: (b)

Important Diagrams: Locomotion and Movement | Biology Class 11 - NEET

Important Diagrams: Locomotion and Movement | Biology Class 11 - NEET

Option (B) is the correct answer because statements B and C are only correct statements while A and D are incorrect statements.Muscle bundles are held together by collagenous connective tissue layer called fascia. Muscle bundles are called fascicles. The portion of the myofibril between two successive ‘Z’ lines is considered as functional unit of contraction called sarcomere.

Q2: According to the sliding filament theory:   (NEET 2022 Phase 2)
(a) The actin filaments slide away from A-band resulting in shortening of sarcomere.
(b) Actin and myosin filaments slide over each other to increase the length of the sarcomere.
(c) Length of A-band does not change
(d) I-band increases in length.
Ans: 
(c)

Important Diagrams: Locomotion and Movement | Biology Class 11 - NEET

  • Option (c) is the correct answer because length of A band remains unchanged during muscle contraction.
  • Option (a) is incorrect because actin filaments slide towards A-band.
  • Option (b) is incorrect because length of sarcomere decreases during muscle contraction.
  • Option (d) is incorrect because length of I-band decreases during muscle contraction.

Q3:  Select the correct option.    (NEET 2019)
(a) There are seven pairs of vertebrosternal, three pairs of vertebrochondral and two pairs of vertebral ribs.
(b) 8th, 9th and 10th pairs of ribs articulate directly with the sternum.
(c) 11th and 12th pairs of ribs are connected to the sternum with the help of hyaline cartilage.
(d) Each rib is a flat thin bone and all the ribs are connected dorsally to the thoracic vertebrae and ventrally to the sternum.
Ans: 
(a)Important Diagrams: Locomotion and Movement | Biology Class 11 - NEETSeven pairs of Ribs are vertebrosternal while 8th, 9th and 10th pair of ribs are vertebrochondral and the last 11th, 12th pair are vertebral ribs.

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FAQs on Important Diagrams: Locomotion and Movement - Biology Class 11 - NEET

1. What is the basic structure of skeletal muscle?
Ans. Skeletal muscle is composed of long, cylindrical cells known as muscle fibers. These fibers are multinucleated and contain myofibrils, which are the contractile elements of the muscle. The myofibrils are organized into repeating units called sarcomeres, which are responsible for muscle contraction. The skeletal muscle is also surrounded by connective tissue, including epimysium, perimysium, and endomysium, which provide support and structure.
2. What is a sarcomere and its function in muscle contraction?
Ans. A sarcomere is the fundamental contractile unit of striated muscle tissue, defined by the area between two Z discs. It contains overlapping thick (myosin) and thin (actin) filaments. During muscle contraction, the sarcomeres shorten as the actin filaments slide over the myosin filaments, leading to the overall shortening of the muscle fiber.
3. How are contractile proteins structured in skeletal muscle?
Ans. Contractile proteins in skeletal muscle include actin and myosin. Actin is a globular protein that polymerizes to form thin filaments, while myosin is a motor protein that forms thick filaments. Myosin molecules have a head that interacts with actin to form cross-bridges, enabling muscle contraction. The arrangement of these proteins within the sarcomere is crucial for the contractile function of the muscle.
4. What is the mechanism of muscle contraction?
Ans. Muscle contraction occurs through a process known as the sliding filament theory. When a muscle receives a signal from a motor neuron, calcium ions are released, allowing myosin heads to attach to binding sites on actin filaments. The myosin heads pivot, pulling the actin filaments towards the center of the sarcomere, which shortens the muscle fiber. ATP is necessary for this process, as it provides the energy required for the myosin heads to detach and reset for another contraction cycle.
5. What are the differences between the axial and appendicular skeleton?
Ans. The axial skeleton consists of the bones that form the central axis of the body, including the skull, vertebral column, and rib cage. Its primary function is to protect vital organs and support the body. The appendicular skeleton includes the bones of the limbs (arms and legs) and the girdles (shoulder and pelvic) that attach them to the axial skeleton. This part of the skeleton is primarily involved in movement and locomotion.
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