Question

Contractile proteins are present in :

• A. Bones
• B. Blood
• C. Muscles
• D. Cartilage

Hint:

"Contractile" means able to contract or shorten. The main job of {Muscles} is to contract and produce movement or force. This contraction is made possible by special proteins called {contractile proteins}. The two most important contractile proteins in muscles are {Actin} and {Myosin}. Bones provide support, blood transports, cartilage cushions ��� muscles contract.

Answer 1

The Correct Option is C

Concept: Contractile proteins are specialized proteins that are capable of generating force and movement by shortening or contracting. They are the primary components responsible for muscle contraction. Step 1: Major Contractile Proteins The two main contractile proteins found in muscle cells are:
Actin: Forms thin filaments.
Myosin: Forms thick filaments. The interaction between actin and myosin filaments, through a sliding mechanism powered by ATP, causes muscle cells to contract. Other regulatory proteins (like troponin and tropomyosin) are also involved in controlling this interaction. Step 2: Analyzing the options for the presence of contractile proteins as a primary functional component
(1) Bones: Bones are rigid connective tissues that form the skeleton. They are primarily composed of a mineralized matrix (calcium phosphate) and collagen fibers (a structural protein, but not primarily contractile in this context). Bone cells (osteocytes, osteoblasts, osteoclasts) are present but the bulk tissue is not defined by contractile proteins.
(2) Blood: Blood is a fluid connective tissue consisting of plasma, red blood cells, white blood cells, and platelets. While some proteins are present in blood (e.g., albumin, globulins, fibrinogen), the primary contractile proteins actin and myosin are not major functional components of blood responsible for its primary roles (transport, immunity, clotting). Some blood cells like platelets contain actin and myosin for shape change and clot retraction, but "blood" as a tissue is not defined by contractility.
(3) Muscles: Muscle tissue (skeletal, smooth, and cardiac) is specialized for contraction. Muscle cells (fibers) are packed with actin and myosin filaments arranged in a way that allows for force generation and shortening. This is where contractile proteins are a defining and abundant component.
(4) Cartilage: Cartilage is a flexible connective tissue composed of chondrocytes embedded in an extracellular matrix rich in collagen and proteoglycans. It provides support and cushioning, but it is not contractile. Step 3: Identifying where contractile proteins are a primary functional component Contractile proteins, primarily actin and myosin, are the fundamental components responsible for the ability of Muscles to contract and generate force.