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The structure of connective tissues is an extracellular matrix. Finger nails and toenails grow from matrices. It is found in various connective tissues. It is generally used as a jelly-like structure instead of cytoplasm in connective tissue.
Extracellular matrix (ECM)Edit
The main ingredients of the extracellular matrix are glycoproteins secreted by the cells. (Recall that glycoproteins are proteins with covalently bound carbohydrates, usually short chains of sugars.) The most abundant glycoprotein in the ECM of most animal cells is collagen, which forms strong fibers outside the cells. In fact, collagen accounts for about 40% of the total protein in the human body. The collagen fibers are embedded in a network woven from proteoglycans. A proteoglycan molecule consists of a small core protein with many carbohydrate chains covalently attached, so that it may be up to 95% carbohydrate. Large proteoglycan complexes can form when hundreds of proteoglycans become noncovalently attached to a single long polysaccharide molecule. Some cells are attached to the ECM by still other ECM glycoproteins such as fibronectin. Fibronectin and other ECM proteins bind to cell surface receptor proteins called integrins that are built into the plasma membrane. Integrins span the membrane and bind on the cytoplasmic side to associated proteins attached to microfilaments of the cytoskeleton. The name integrin is based on the word integrate, integrins are in a position to transmit signals between the ECM and the cytoskeleton and thus to integrate changes occurring outside and inside the cell. Current research on fibronectin, other ECM molecules, and integrins is revealing the influential role of the ECM in the lives of cells. By communicating with a cell through integrins, the ECM can regulate a cell's behavior. For example, some cells in a developing embryo migrate along specific pathways by matching the orientation of their microfilaments to the "grain" of fibers in the ECM. Researchers are also learning that the ECM around a cell can influence the activity of genes in the nucleus. Information about the ECM probably reaches the nucleus by a combination of mechanical and chemical signaling pathways. Mechanical signaling involves fibronectin, integrins, and microfilaments of the cytoskeleton. Changes in the cytoskeleton may in turn trigger chemical signaling pathways inside the cell, leading to changes in the set of proteins being made by the cell and therefore changes in the cells function. In this way, the ECM of a particular tissue may help coordinate the behavior of all the cells within that tissue. Direct connections between cells also function in this coordination. 
Bone is a form of connective tissue found in the body, composed largely of hardened hydroxyapatite-containing collagen. In larger mammals, it is arranged in osteon regions. Bone matrix allows mineral salts such as calcium to be stored and provides protection for internal organs and support for locomotion.
Cartilage is another form of connective tissue found in the body, providing a smooth surface for joints and a mechanism for growth of bones during development.
The Golgi matrix is a protein scaffold around the Golgi apparatus made up of Golgins, GRASP's and miscellaneous other proteins on the cytoplasmic side of the Golgi apparatus involved in keeping its shape and membrane stacking.
Tissues and cellsEdit
Bioinformatics and sequence evolutionEdit
Botany and agricultureEdit
Population biology and ecologyEdit
- Biology Eighth Edition Campbell, Reece, Urry, Cain, Wasserman, Minorsky, Jackson