Functional membranes, carbon dioxide

The major functions of the red blood ceil are relatively simple, consisting of dehvering oxygen to the tissues and of helping in the disposal of carbon dioxide and protons formed by tissue metabolism. Thus, it has a much simpler structure than most human cells, being essentially composed of a membrane surrounding a solution of hemoglobin (this protein forms about 95% of the intracellular protein of the red cell). There are no... 

Transport. A wellknown transport protein is hemoglobin in the erythrocytes (bottom left). It is responsible for the transport of oxygen and carbon dioxide between the lungs and tissues (see p.282). The blood plasma also contains many other proteins with transport functions. Prealbumin (transthyretin middle), for example, transports the thyroid hormones thyroxin and triiodothyronine. Ion channels and other integral membrane proteins (see p.220) facilitate the transport of ions and metabolites across biological membranes. 

It is about an active mechanism depending on the Na+-K+-ATPase enzyme located in the lateral plasma membrane of the endothelial cells. It enables the penetration of potassium into the cell against the excretion of sodium into the aqueous humor. Then this latter becomes hypertonic in comparison with the stroma and thus drains the water. In normal conditions, the pump can adapt to the physiological needs. Actually, the moves of the sodium ion are relative to those of the bicarbonate ion (responsible for the negative polarization of the back side of the endothelial cell) and to the pH variation. And yet, the bicarbonate comes from the aqueous humor and from the intracellular transformation of carbon dioxide and water by carbonic anhydrase. All of this shows the good functioning of the pumps depends on the integrity of the plasma... 

This phenomenon is a function of the carbon dioxide present in the RO feed water. Because carbon dioxide is a gas, it is not rejected by an RO membrane. Hence, the permeate will contain carbon dioxide if the... 

Figure 9.3 Conversion of thermal decomposition of carbon dioxide in a dense yttria-stabilized zirconia membrane reactor as a function of membrane thickness when a sweep gas is used (top) and when vacuum is applied (bottom) [Itoh et al., 1993]...

Yamaguchi, T., Boetje, L.M., Koval, C.A., Noble, R.D., and Brown, C.N. Transport properties of carbon dioxide through amine functionalized carrier membranes. Industrial Engineering Chemistry Research, 1995, 34, 4071. 

One of the first applications of TSOSs was reported in 2002. Davis and his team have shown that an amine-derived imidazolium salt can capture carbon dioxide by forming a ammonium carbamate [28], Primary amine functionalized imidazolium salts have also been used for facilitating C02 transport through a supported liquid membrane showing high selectivity and high stability for CH4/C02 separation [50] (Fig. 18). 

In potentiometric enzyme electrodes lyases producing carbon dioxide or ammonia are used as terminal enzymes of sequences. In fact, the term enzyme sequence electrode was introduced on the occasion of the design of a potentiometric D-gluconate sensor containing gluconate kinase (EC 2.7.1.12) and 6-phosphogluconate dehydrogenase (EC 1.1.1.44) (Jensen and Rechnitz, 1979). The authors found that for such a sensor to function the optimal pH values of the enzymes and the transducer should be close to each other. Furthermore, cofactors, if necessary, must not react with one another nor with constituents of the sample. It was concluded that the rate of substance conversion in multiple steps cannot exceed that of the terminal enzyme reaction. A linear concentration dependence is obtained when an excess of all enzymes of the sequence is provided, i.e. complete conversion occurs of all substrates within the enzyme membrane. Different permeabilities of the different substrates results in different sensitivities. This is particularly important with combinations of disaccharidases and oxidases, where the substrate is cleaved to two monosaccharides of approximately the same molecular size. The above... 

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