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Activating factor

Young s modulus for [CERAMICS - PffiCHANICAL PROPERTIES AND BEHAVIOR] (Vol 5) Platelet-activating factor QAE) antagonists... [Pg.770]

Chromium. The history of the investigations estabHshing the essentiaHty of chromium has been reviewed (136). An effect of brewer s yeast in preventing or curing impaired glucose tolerance in rats was revealed, and the active factor was identified as a Cr(III) organic complex, glucose tolerance... [Pg.387]

Extrinsic Pathway. Coagulation is initiated when tissue extracts with Hpid—protein properties are released from the membranes of endothehal cells following injury or insult. These substances, collectively designated tissue thromboplastin, complex with circulating Factor VII and in the presence of calcium ions subsequentiy activate Factor X (Fig. 1). In vitro evidence suggests that Factor X can be activated less rapidly through the interaction of kaUikrein [9001-01-8] with Factor VII. [Pg.172]

Factor XIII. Factor XIII circulates in the blood as a zymogen composed of two pairs of different polypeptide chains designated A and B. Inert Factor XIII has a molecular weight of 350,000 daltons and is converted to its active transglutaminase form in the presence of thrombin and calcium. Activated Factor XIII, Xllla, induces an irreversible amide exchange reaction between the y-glutamine and S-lysine side chains of adjacent fibrin... [Pg.174]

The synthetic utihty of the above transformations stems from the fact that many monoesters obtained as a result of hydrolysis may be converted to pharmaceutically important intermediates. For example, the optically active glycerol derivative (27) is a key intermediate in the production of P-blockers. Akyl derivative (25) may be converted into (5)-paraconic acid [4694-66-0] ((5)-5-oxo-3-tetrahydrofurancarboxyhc acid) that is a starting material for the synthesis of (3R)-A-factor. The unsaturated chiral cycHc monoacetate (31) is an optically active synthon for prostaglandins, and the monoester (29) is used for the synthesis of platelet activating factor (PAF) antagonists. [Pg.336]

Platelet Activating Factor A Potent Glyceroether Mediator... [Pg.247]

Platelet activating factor (PAF) was first identified by its ability (at low levels) to cause platelet aggregation and dilation of blood vessels, but it is now known to be a potent mediator in inflammation, allergic responses, and shock. PAF effects are observed at tissue concentrations as low as 10 M. PAF causes a dramatic inflammation of air passages and induces asthma-like symptoms in laboratory animals. Toxic-shock syndrome occurs when fragments of destroyed bacteria act as toxins and induce the synthesis of PAF. This results in a drop in blood pressure and a reduced... [Pg.247]

FIGURE 25.24 Platelet activating factor, formed from Talkyl-2-lysophosphatidylcholine by acetylation at C-2, is degraded by the action of acetylhydrolase. [Pg.826]

In the PPF, the first factor Pi describes the statistical average of non-correlated spin fiip events over entire lattice points, and the second factor P2 is the conventional thermal activation factor. Hence, the product of P and P2 corresponds to the Boltzmann factor in the free energy and gives the probability that on<= of the paths specified by a set of path variables occurs. The third factor P3 characterizes the PPM. One may see the similarity with the configurational entropy term of the CVM (see eq.(5)), which gives the multiplicity, i.e. the number of equivalent states. In a similar sense, P can be viewed as the number of equivalent paths, i.e. the degrees of freedom of the microscopic evolution from one state to another. As was pointed out in the Introduction section, mathematical representation of P3 depends on the mechanism of elementary kinetics. It is noted that eqs.(8)-(10) are valid only for a spin kinetics. [Pg.87]

Various 1.4-benzodiazepines with a five-membered heteroaromatic ring fused to the 1,2-bond, such as 17, where A represents a heteroaromatic ring, have been prepared by such methods and tested for activity on the central nervous system, as cholecystokinin antagonists and as antagonists of platelet activating factors.245... [Pg.415]

In the luminescence systems that require a peroxide or an active oxygen species in addition to molecular oxygen (the scaleworm, the tube worm Chaetopterus, the clam Pholas, the squid Symplecto-teuthis), their in vitro luminescence reactions reported are much slower and inefficient compared to their bright in vivo luminescence. The true, intrinsic activation factor in their in vivo luminescence should be determined, and the detailed mechanisms of oxidation should be elucidated. [Pg.493]

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]

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See also in sourсe #XX -- [ Pg.110 , Pg.112 ]



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Active factors

Activity factor

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