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Fibrinogen solubility

Mckee, A. Mattock, R HUl, R. L. Subunit Structure of Human Fibrinogen, Soluble Fibrin and Cross-Linked Insoluble Fibrin. Proc. Natl. Acad. USA, 1970,66,738. [Pg.238]

Globulins. Proteins insoluble in water, soluble in dilute salt solutions. They include such proteins as myosin from muscle, fibrinogen from blood and edcstin from hemp. [Pg.331]

Thrombin, the two-chain derivative of the prothrombin molecule, has a molecular weight of approximately 37,000 daltons. Its proteolytic properties induce the conversion of fibrinogen to fibrin to produce the initial visible manifestation of coagulation, the soluble fibrin clot. In addition, thrombin influences the activity of Factors V, VIII, and XIII and plasmin. Thrombin affects platelet function by inducing viscous metamorphosis and the release reaction with subsequent aggregation. [Pg.173]

Factor II. Prothrombin is a vitamin K-dependent compound synthesized by the Hver. When prothrombin is activated it is cleaved at two sites, resulting in a two-chain molecule linked by a disulfide bond that has a molecular weight of 37,000 daltons. Thrombin is the serine protease that initiates the conversion of soluble fibrinogen into fibrin. [Pg.174]

Fibrinolytics. Figure 2 Various fibrin structures for plasmin. Fibrinogen (Fg) is converted to fibrin (F) by thrombin (T), and thrombin can also convert factor XIII (XIII) to activated factor XIII (Xllla). The latter produces crosslinks between fibrins (FxxF) and also may crosslink fibrin with a2-plasmin inhibitor (FxxFxxPI). The efficiency of digestion of these plasmin substrates by plasmin, resulting in the soluble fibrin degradation products (FDP), is different. The amount of FDP formed in time is expressed in arbitrary units. [Pg.504]

Fibrinogen (factor I, 340 kDa see Figures 51-1 and 51-4 and Tables 51-1 and 51-2) is a soluble plasma glycoprotein that consists of three nonidentical pairs of polypeptide chains (Aa,Bpy)2 covalently linked by disulfide bonds. The B(3 and y chains contain asparagine-linked complex oligosaccharides. All three... [Pg.601]

Induction of the blood coagulation cascade. This culminates in the conversion of a soluble serum protein, fibrinogen, into insoluble fibrin. Fibrin monomers then aggregate at the site of... [Pg.329]

Tyrosine (Tyr or Y) (4-hydroxyphenylalanine ((5)-2-amino-3-(4-hydroxyphenyl)-propanoic acid)) is a polar, neutral, aromatic amino acid with the formula H00CCH(NH2)CH2C6H50H and is the precursor of thyroxin, dopamine, norepinephrine (noradrenaline), epinephrine (adrenaline), and the pigment melanin. Being the precursor amino acid for the thyroid gland hormone thyroxin, a defect in this may result in hypothyroidism. Tyr is extremely soluble in water, a property that has proven useful in isolating this amino acid from protein hydrolysates. The occurrence of tyrosine- 0-sulfate as a constituent of human urine and fibrinogen has been reported. ... [Pg.674]

Blood clotting first received serious scientific attention in the seventeenth century, when Malpighi and BoreUi proposed that a blood clot was formed from the fluid part of the blood. In the eighteenth century, John Hunter established that clots were formed from the coagulable lymph . In 1845, Buchanan showed that a series of enzymes was involved and by 1900 it was accepted that the soluble substance in blood, fibrinogen, was converted into the solid fibrin clot by an enzyme, thrombin. From that time many... [Pg.376]

The most important reaction in blood clotting is the conversion, catalyzed by thrombin, of the soluble plasma protein fibrinogen (factor 1) into polymeric fibrin, which is deposited as a fibrous network in the primary thrombus. Thrombin (factor 11a) is a serine proteinase (see p. 176) that cleaves small peptides from fibrinogen. This exposes binding sites that spontaneously allow the fibrin molecules to aggregate into polymers. Subsequent covalent cross-linking of fibrin by a transglutaminase (factor Xlll) further stabilizes the thrombus. [Pg.290]

Overall, therefore, activation of the thrombolytic cascade occurs exactly where it is needed— on the surface of the clot. This is important as the substrate specificity of plasmin is poor, and circulating plasmin displays the catalytic potential to proteolyse fibrinogen, factor V and factor VIII. Although soluble serum tPA displays a much reduced activity towards plasminogen, some free circulating plasmin is produced by this reaction. If uncontrolled, this could increase the risk of subsequent haemorrhage. This scenario is usually averted, as circulating plasmin is rapidly... [Pg.382]

Once prothrombinase has been formed, the common pathway is followed. In stage 2, prothrombinase and calcium catalyze the conversion of prothrombin to thrombin. In stage 3, thrombin, in the presence of calcium converts soluble fibrinogen to insoluble fibrin threads. [Pg.240]

Class I Protein solubility is first increased (salting in) and then decreased (salting out) as salt concentration is increased. Thus, there is a maximum peak in the solubility profile. Examples of proteins that show this behavior are carboxyl hemoglobin and fibrinogen ( ). [Pg.99]

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See also in sourсe #XX -- [ Pg.265 ]

See also in sourсe #XX -- [ Pg.420 ]



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