Biocatalysts disadvantages

The disadvantages of biocatalysts will now be considered, followed by their advantages. You should note that the pros and cons of biotechnology versus chemical synthesis are very general and that exceptions may exist. 

Apart from economic considerations, the inherent disadvantages of biocatalysts have also limited the transformation of new technologies into industrial processes. Table 2.3 lists the major drawbacks of bioprocesses. 

On the other hand, two-phase systems have potential disadvantages. Biocatalyst inhibition or denaturation may occur in contact with organic solvent dissolved in the aqueous phase or at the organic-aqueous interface. The system may be complex and inflammable. 

During the last decade, significant advancements in biochemistry, molecular cloning, and random and site-directed mutagenesis, directed evolution of biocatalysts, metabolic engineering and fermentation technology have led us to devise methods to circumvent the disadvantages of whole-cell biotransformation discussed in Section 10.2. The applications of these methods are summarized in this section. 

In summary, the synthesis and in situ regeneration of nucleotide sugars by combinatorial biocatalysis suffers from the main disadvantage that each enzyme has to be produced in sufficient amounts. This affords efficient recombinant protein produchon hosts being a bottleneck for some genes [25]. However, once a multi-enzyme system has been developed, the productivity can be improved by repetitive use of the biocatalysts as demonstrated for repetitive batch syntheses with soluble enzymes [25, 38] or with immobilized enzymes [48]. The advantage... 

What do yon consider to be the most important general advantages and disadvantages of enzyme and cell biocatalysts when used in large-scale processes, as compared with other production technologies snch as chemistry ... 

But there is still another point, not yet discussed but with considerable potential, which may also impact eventually on technical asymmetric catalysis. Even though biocatalysts are efficient, active, and selective, there still remains one big disadvantage At present, there is not yet an appropriate enzyme known or available for every given chemical reaction. It is estimated that about 25 000 enzymes exist in Nature, and 90% of these have still to be discovered [28, 29]. New biocatalysts are made available nowadays not only from screening known organism but also via screening metagenomic libraries and directed evolution techniques [30]. 

Conventional filters, such as a coffee filter, termed depth filters , consist of a network of fibers and retain solute molecules through a stochastic adsorption mechanism. In contrast, most membranes for the retention of biocatalysts feature holes or pores with a comparatively narrow pore size distribution and separate exclusively on the basis of size or shape of the solute such membranes are termed membrane filters . Only membrane filters are approved by the FDA for sterilization in connection with processes applied to pharmaceuticals. Table 5.3 lists advantages and disadvantages of depth and membrane filters. 

In the preceding section, we analyzed an immobilized enzyme process and calculated some important parameters such as productivity. In this section, we investigate another process configuration for retaining biocatalysts, the membrane reactor. The advantages and disadvantages of immobilization and membrane retention have already been discussed in Chapter 5. As in the case of immobilization, retention of catalyst by a membrane vastly improves biocatalyst productivity, a feature important on a processing scale but usually not on a laboratory scale. 

In general there are two principle possibilities using a biocatalyst in organic synthesis, namely as whole cells or as isolated enzymes - free or immobilized. The advantages and disadvantages of each can be intensively discussed, but the outcome of this consideration always depends on the whole system and the kind of application. There are numerous examples of both and thus there is no partitioning between whole cell biotransformation and isolated enzymes in this review. 

Describe in your own words the advantages and disadvantages of using whole cells compared to isolated enzymes as biocatalysts, with respect to catalyst immobilization, catalyst recovery, ease of use, and product selectivity and purification. 

The gelification of the biocatalyst on the membrane is based on one of the main drawbacks of membrane processes fouling. Disadvantages of this systems are the reduction of the catalytic efficiency, due to mass transport limitations and the possibility of preferential pathways in the enzyme gel layer [60],... 

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