Soluble enzyme proteins

Small (5%) decrease in soluble enzyme protein in lAA-treated material... 

Water-soluble enzymes, proteins, and amino acids... 

An extract from the soluble stromal proteins of purified and intact spinach-leaf chloroplasts was prepared by lysis of the cells in buffer, centrifugation of the suspension of broken cells, and concentration of the supernatant with removal of insoluble material. This extract contained all of the enzymes involved in the condensation of the cyclic moieties of thiamine, thiazole, and pyramine. Thus, the synthesis of thiamine in this extract following the addition of pyramine and putative precursors was a proof that the system had the possibility of building the thiazole. It was found that L-tyrosine was the donor of the C-2 carbon atom of thiazole, as in E. coli. Also, as in E. coli cells, addition of 1 -deoxy-D-f/irco-pen-tulose permitted synthesis of the thiamine structure. The relevant enzymes were localized by gel filtration in a fraction covering the 50- to 350-kDa molecular-mass range. This fraction was able to catalyze the formation of the thiazole moiety of thiamine from 0.1 -mM 1-deoxy-D-t/ireo-pentulose at the rate of 220 pmol per mg of protein per hour, in the presence of ATP and Mg2+. 

Figure26-2. Biosynthesis of squalene, ubiquinone, dolichol, and other polyisoprene derivatives. (HMG, 3-hydroxy-3-methylglutaryl x, cytokinin.) A farnesyl residue is present in heme a of cytochrome oxidase. The carbon marked with asterisk becomes C or C,2 in squalene. Squalene synthetase is a microsomal enzyme all other enzymes indicated are soluble cytosolic proteins, and some are found in peroxisomes.

For the first group (i.e. intracellular soluble enzymes and proteins), which need no posttranslational modification and complex domain organization influencing protein folding, E. coli is the most preferred choice. However, for the other targets, alternative expression systems often provide a higher rate of success. The most common expression systems are presented in this chapter. 

Fig. 1.3 Prediction of the most appropriate subcellular targeting strategies by agroinfiltration. The levels of an industrial enzyme (IE) are shown in agroinfiltrated and transgenic alfalfa leaves using different subcellular targeting peptides. Equal amounts of total soluble leaf proteins were separated by SDS-PAGE and blotted onto a PVDF membrane. Polyclonal anti-IE IgGs were used for detection.

When the receptor interacts with its associated G protein, the conformation of the guanine-nucleotide-binding site is altered. The subunits then dissociate, and a phosphatidylinositol-specific phospholipase C (PI-PLC) is activated [5]. The subsequent hydrolysis of phosphatidylinositol bisphosphate then produces inositol triphosphate (IP3) and diacylglycerol (DAG), which are known to be secondary messengers. For example, the water soluble IP3 is released into the cell where its ultimate targets are the calcium storage organelles from which Ca2+ is released [3]. The presence of DAG in cells is known to activate the cellular enzyme protein kinase C (PKC) [6, 7], which phosphorylates a number of cellular... 

The enzyme proteins were found only in the soluble fraction of disintegrated liver (G10). However, measurable activities of both the enzymes have also been described for isolated cell nuclei (S14, S15). 

The peptide chain in globular proteins is folded into fairly compact conformations. Water-soluble enzymes are typical globular proteins which have most of the hydrophobic amino acid residues located in the interior and the hydrophilic residues located mainly at the surface in contact with solvent water. The average radii are 20-40 A (Boyer, 1970). It is clear that there are common morphological features between surfactant micelles and enzyme molecules. This fact has prompted many chemists to use micelles as enzyme models. However, it must be emphasized that micelles exist in dynamic equilibria with monomeric surfactant and their hydrophobic core is quite fluid, whereas enzyme molecules have precisely fixed three-dimensional structures. 

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... 

Chalcone synthase, the first enzyme committed to flavonoid biosynthesis, is a membrane-bound protein (40). Since it is readily solubilized, it had previously been regarded as a soluble enzyme. Likewise, DS-Co and CM-2 may prove to be membrane-organized proteins that are readily solubilized. 

Organic solvents. Addition of organic solvents decreases the solubility of proteins by reducing the dielectric constant of the medium. For the precipitation of enzymes, methanol, ethanol or propanol are mostly used, but acetone and diethyl ether can also be employed. The principal disadvantage of organic solvents is their tendency to cause stmctural damage of enzyme molecule. 

The structure and function of enzymes is determined by both the amino acid sequence and the surrounding solvent. The overall stability of proteins is characterized by a subtle balance of into- and inter-molecular interactions. The basic principle of the structure (and of the stability) of the proteins is related to the nature of its normal enviromnent for (water) soluble globular proteins this is the minimization of the hydrophobic surface area, whereas the contrary is the case for membrane proteins (Jaenicke, 1991). 

Pallavicini et al. (16) utilized a-chymotrypsin immobilized on chitin to catalyze plastein formation from leaf protein hydrolyzates. When analyzed by gel exclusion chromatography, the products were comparable to those produced by soluble enzymes. Modification of Specific Functional Properties... 

Benzene 1,2-dioxygenase was first demonstrated in cell-free extracts of a strain of Pseudomonas putida by Gibson et al.203. They were able to resolve the system into two fractions by (NH4)2S04 precipitation, both of which are necessary for benzene oxidation. Subsequently, Axcell and Geary82 obtained a soluble enzyme system which oxidizes benzene to ns-l,2-dihydrocyclohexa-3,5-diene (m-benzeneglycol) from a species of Pseudomonas grown on benzene as the major carbon source. The system is shown to consist of three protein components. Two of these are nonheme... 

H. M. Koplove, Ch. L Cooney Enzyme Production During Transient Growth -The Reorganization of Protein Synthesis. - R.D. Schmid Stabilized Soluble Enzymes. - S. S. Wang,... 

Phospholipase C hydrolyzes the bond between glycerol and phosphate in phosphatidylinositol 4,5-bisphos-phate, releasing two products inositol 1,4,5-trisphos-phate (IP3), which is water-soluble, and diacylglycerol, which remains associated with the plasma membrane. IP3 triggers release of Ca2+ from the endoplasmic reticulum, and the combination of diacylglycerol and elevated cytosolic Ca2+ activates the enzyme protein kinase C. 

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