The smallest contractile unit of muscle is a? A. fiber, B. myofibril, C. sarcomere, D. myofilament
The Correct Answer and Explanation is:
The correct answer is C. sarcomere.
The sarcomere is the smallest functional unit of muscle contraction. It is the structural unit of a muscle fiber and is located within the myofibrils, which are long, thread-like structures in muscle fibers that contract and produce movement. The sarcomere itself is composed of actin (thin) and myosin (thick) filaments arranged in a highly organized pattern.
When a muscle contracts, the sarcomeres shorten, which causes the entire muscle to contract. This process is facilitated by the sliding filament theory. According to this theory, during contraction, the actin and myosin filaments slide past each other, with the myosin heads attaching to the actin filaments and pulling them inward. This results in a decrease in the length of the sarcomere, contributing to muscle shortening.
The sarcomere is bounded by Z-discs (or Z-lines), which define the limits of each sarcomere. The A-band within the sarcomere contains the entire length of the myosin filaments, while the I-band contains the actin filaments. The H-zone is the region where only myosin filaments are found, and the M-line is where the myosin filaments are anchored at the center of the sarcomere.
The myofibril (option B) is a series of sarcomeres connected end-to-end, while the fiber (option A) is the muscle cell itself, which contains many myofibrils. The myofilament (option D) refers to the individual filaments (actin and myosin) that make up the sarcomere.
Thus, the sarcomere is the smallest unit that contracts within the muscle, enabling the muscle’s overall contraction and movement.
