Final answer:
Collagen and elastin in muscle tissue's extracellular matrix are crucial for muscle elasticity, extensibility, and contractility, which are inherent properties that influence the range of motion at a joint. Tendons play a role in transmitting muscle-generated force to bones for movement.
Step-by-step explanation:
The inherent properties of muscle tissue that play a major role in the range of motion (ROM) of any given joint are collagen and elastin. These are crucial components of the muscle tissue's extracellular matrix. Muscle tissue possesses elasticity, which is the ability of a muscle to return to its original length after being stretched, due to elastic fibers. This quality is essential as it allows muscles to stretch and not be damaged during movement.
Moreover, muscle tissue exhibits extensibility, meaning it can extend or stretch when needed, and contractility, which allows muscle tissue to forcefully shorten, pulling on attachment points such as tendons that facilitate body movement.Tendons, being tough bands of fibrous connective tissue, connect muscle to bone and are important in transmitting the force generated by muscle contractions to bones, leading to movement. Without the integrated action of these tissues, the ROM at a joint would be severely limited.