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Genetic engineering system

The extended ternary complex model can take into account the phenomenon of constitutive receptor activity. In genetically engineered systems where receptors can be expressed in high density, Costa and Herz [2] noted that high levels of receptor expression uncovered the existence of a population of spontaneously active receptors and that these receptors produce an elevated basal response in the system. The relevant factor is the ratio of receptors and G-proteins (i.e., elevated levels of receptor cannot yield constitutive activity in the absence of adequate amounts of G-protein, and vice versa). Constitutive activity (due to the [RaG] species) in the absence of ligand ([A] = 0) is expressed as... [Pg.49]

Gene Expression Systems. One of the potentials of genetic engineering of microbes is production of large amounts of recombinant proteias (12,13). This is not a trivial task. Each proteia is unique and the stabiUty of the proteia varies depending on the host. Thus it is not feasible to have a single omnipotent microbial host for the production of all recombinant proteias. Rather, several microbial hosts have to be studied. Expression vectors have to be tailored to the microbe of choice. [Pg.248]

Biomedical Applications. TRIS AMINO is used for a number of purposes in its pure form, it is an acidimetric standard the USP grade can be utilized intraveneously for therapeutic control of blood acidosis TRIS AMINO also is useful in genetic engineering as a buffering agent for enzyme systems, industrial protein purification, and electrophoresis. AMP has found use as a reagent in enzyme-linked immunoassays. The primary appHcation is for alkaline phosphatase assays. [Pg.19]

It was dedded to use genetic engineering to put the more-effident GDH system from E. coli into Methylophilus methylotrophus AS1. The strategy was as follows ... [Pg.98]

Fig. 3. One of the experimental systems in common use for genetic engineering of plants with Agrobacterium containing a recombinant Ti-plasmid (from Bryant, 1988). Fig. 3. One of the experimental systems in common use for genetic engineering of plants with Agrobacterium containing a recombinant Ti-plasmid (from Bryant, 1988).
One of the exciting features of the direct DNA delivery system is that it does not rely on an infection. The limited host range of other vector delivery systems is therefore irrelevant, and the way is opened for genetic engineering of cereals. Cereal protoplasts are equally amenable to uptake of foreign DNA after electroporation and the system therefore has potential for use with the major crop species. However, there is at present one drawback, namely that for cereals it has not yet proved possible to grow fertile whole plants from the genetically transformed cells. [Pg.139]

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See also in sourсe #XX -- [ Pg.497 , Pg.498 ]



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