Factor molecular defect

Without going into the molecular defects in other coagulation factors, suffice it to say that our current understanding of mechanisms leading to the clinical expression of thrombosis and bleeding has been enhanced by the knowledge of such mutations. 

Kalafatis M, Bertina RM, Rand MD, Mann KG. Characterization of the molecular defect in factor... 

Chemical breakdown usually involves oxidative chain reactions that cause embrittlement of semicrystalline polymers and discoloration of poly(vinyl chloride) and polymers with aromatic groups. The reactions are complicated by the presence of transient intermediates and by rates that depend on minute concentrations of molecular defects, impurities and additives. They also depend on several important piiysi-cal factors outlined in this brief overview of polyolefin degradation, two of these factors, the transfer of excitation energy and the transport of products and protectants, play a major role in stabilization processes. 

I Hemophilia A is a bleeding disorder that affects men. This disorder was found in the Royal House of Stuart in Europe and Russia. Queen Victoria was later proved to be the carrier. The disorder, previously thought to be an absence of factor VIII, is actually a molecular defect in the factor that renders it unable to perform its clotting function. 

As mentioned earlier, decreased HDL-C levels constitute a major risk factor for CAD and LEAD. A novel therapeutic approach to raise HDL is inhibition of cholesteryl ester transfer protein (CETP) (123). Individuals with CETP deficiency as a result of molecular defects in the CETP gene, have markedly elevated plasma levels of HDL-C and apoli-poprotein A-I (124). 

The details of mechanical behavior are rooted in a number of factors molecular weight distribution, polymer tacticity, degree of crystallinity, inclusions, defects, incorporation of specific modifiers, polymer blending, processing conditions, etc. 

Adsorption Kinetics. In zeoHte adsorption processes the adsorbates migrate into the zeoHte crystals. First, transport must occur between crystals contained in a compact or peUet, and second, diffusion must occur within the crystals. Diffusion coefficients are measured by various methods, including the measurement of adsorption rates and the deterniination of jump times as derived from nmr results. Factors affecting kinetics and diffusion include channel geometry and dimensions molecular size, shape, and polarity zeoHte cation distribution and charge temperature adsorbate concentration impurity molecules and crystal-surface defects. 

Independent of the contact geometry, the calculations also demonstrated that the introduction of gauche defects resulted in a decrease of the bridge conductance by a factor of 10, as compared to an all-trans alkanedithiol chain (see Fig. 14b, triangles). Due to variations in the number and positions of gauche defects, as well as various contact geometries, the molecular junctions can exhibit conductance values up to two orders of magnitude below the conductance values of an all-trans conformation of the alkyl chain. 

Nunoi and co-workers (1988) fractionated neutrophil cytoplasm by Mono Q anion-exchange chromatography and obtained three fractions (NCF-1, -2 and -3) that were active in the assembly of the oxidase. Independently, Volpp and colleagues (Volpp, Nauseef Clark, 1988) prepared antiserum from cytosolic factors that eluted from a GTP-affinity column, and this antiserum (Bl) recognised cytoplasmic factors of relative molecular masses 47 kDa and 66 kDa. It was later shown by this group that these cytosolic factors translocated to the plasma membrane during activation. NCF-1 was shown to contain the 47-kDa protein and NCF-2 the 66-kDa protein. Analysis of the defect in the cytosol of autosomal recessive CGD patients revealed that most of these (88%) lacked the 47-kDa protein (p41 -phox), whereas the remainder lacked the 66-kDa protein (p66-phox). Both of these components have now been cloned and recombinant proteins expressed. Interestingly, in the cell-free system, recombinant p47-phox and p66-phox can restore oxidase activity of the cytosol from autosomal recessive CGD patients who lack these components. 

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