collagen

Collagen is the chief structural protein of connective tissue in mammals, located mostly in the extracellular matrix. Collagen comprises long chains containing unusually large amounts of proline, together with glycine residues at approximately every third position. Collagen also contains two uncommon derivative amino acids, hydroxylysine and hydroxyproline (Hyp), where hydroxylysines in some collagens have attached disaccharides.

The tropocollagen subunit is a rod (300 nm x 1.5 nm) comprising three polypeptide strands, each of which is a left-handed helix (not an α helix). Collagen self-assembles, and the precise alignment of individual collagen molecules produces a characteristic pattern of light and dark bands across the fibril on electron-microscopy [] ce-tem collagen fibril [].

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tags [Proteins] [collagen] [connective+tissue] [ECM] [extracellular+matrix]

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fibronectin

Fibronectin (FN) is a high molecular weight, multidomain glycoprotein, comprising about 5% by weight of carbohydrate.

Fibronectin exhibits diverse recognition functions located on distinct fragments or domains, so FN can interact with a variety of macromolecules including/on :
● cytoskeleton
● extracellular matrix – collagen, glycosaminoglycans, proteoglycans, tenascin, fibulin and thrombospondin
● circulating coagulation factors – Fn is covalently incorporated into fibrin clots through the transglutaminase action of coagulation factor XIII, improving fibroblast adhesion
● fibrinolytic system
● acute phase proteins
● complement system
● cell-surface receptors on a variety of cells including fibroblasts, neurons, phagocytes and bacteria – integrins (through RGD tripeptide)
● itself, forming fibrillar entities
● small molecules such as gangliosides, sugars, and Ca ions.

Fibronectin (FN) participates in tissue repair, embryogenesis, blood clotting, and cell migration/adhesion. Cells of most tissues synthesize fibronectin. Soluble fibronectin is produced by hepatocytes and circulates, in its disulfide-bonded dimeric form, in the plasma. The soluble protomer is a compact, flexible dimer that can be converted into an insoluble, fibrillar network. The soluble-to-fibrillar conversion is a highly regulated process involving integrins and possibly other cell-surface receptors [ref] including uPAR (urokinase-type plasminogen activator receptor) [ref] and a cell-surface proteoglycan [ref].[s]

The insoluble fibronectin dimer is synthesized by fibroblasts, chondrocytes, endothelial cells, macrophages, as well as certain epithelial cells. Electron microscopic analyses of natural thin fibrils (5-18nm diameter), made by fibroblasts in culture, clearly indicate an ordered arrangement and suggest a model in which extended protomers (130nm long) are arranged end-to-end with an overlap of about 14 nm [ref]. As an extracellular adhesion molecule, FN binds to integrins and participates in wound healing.

Cell-surface receptors or fibrinogen, collagen and fibrin (as extracellular matrix proteins) facilitate the adherence of microorganisms to host tissues [ref]. The Hep-2 domain of fibronectin interacts with envelope glycoproteins on some retroviruses. Fibronectin is able to bind both the virus and cell-surface receptors, concentrating viruses on the surface of the cells, enhancing viral uptake by cells.

The structural isoforms of fibronectin arise from alternative splicing of a single gene, and possess a variable region plus three types of repeated internal regions (homologous, repeating modules I, II and III) +/- disulfide bonds.

[more] [] The Type I module of fibronectin [] The Type II module (F2) [] segment of fibronectin , four Type III modules []

tags [Proteins] [fibronectin]

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