_______ can digest basically every material in the extracellular matrix. These are ____ requiring enzymes that are reinforcing and changed the ______________ as it _______________and ________________.
Contrast the roles of collagen and proteoglycans in the extracellular space. How do fibronectin and laminin contribute to embryonic development?
Certain of the cell junctions occur as encircling belts, while others occur as discrete patches. How do these two types of structural arrangements correlate with the functions of the respective junctions?
The ECM is composed of two major classes of biomolecules: glycosaminoglycans (GAGs), most often covalently linked to protein forming the proteoglycans, and fibrous proteins which include collagen, elastin, fibronectin, and laminin. These components are secreted locally and assembled into the organized meshwork that is the ECM. Each protein involved, collagen, proteoglycan, fibronectin, and laminin, all have unique structures and a specific role in the extracellular matrix, describe each of them.
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Matrix metalloproteinases can digest basically every material in the extracellular matrix. Collagen is mainly a structural integrity protein. Its based on a structure of helical rod-shaped building blocks that associate into long sturdy polymeric fib...
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_______ can digest basically every material in the extracellular matrix. These are ____ requiring enzymes that are reinforcing and changed the ______________ as it _______________and ________________.
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Matrix metalloproteinases can digest basically every material in the extracellular matrix. Collagen is mainly a structural integrity protein. Its based on a structure of helical rod-shaped building blocks that associate into long sturdy polymeric fibres.
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