Enzymes isozymes

In barley, four branching enzyme isozymes were identified by separation via fast performance liquid chromatography, and three were partially purified.262... 

Isolation of cDNA Clones Encoding the Branching Enzyme Isozyme Genes... 

With few exceptions, an increase in the activity or mass of an enzyme or isoenzyme is not specific or sensitive enough to be used for identifying the type of cancer or the specific organ involvement. An exception is PSA. PSA has mild protease activity and amino acid sequence homology with serine protease of the kallikrein family.It is expressed by normal, benign, hyperplastic, and cancerous prostate glands and minimally by other tissue. Until the application of PSA as a marker for prostate cancer, tumor enzymes had lost most of their popularity for use as cancer markers. Enzymes were used historically as tumor markers before the discovery of oncofetal antigens and the advent of monoclonal antibodies. The abnormalities of enzymes as a marker for cancer are either the expression of the fetal form of the enzyme (isozyme) or the ectopic production of enzymes. 

Multiple Forms of Enzymes. Isozymes, or isoenzymes, provide an avenue for varying regulation of the same reaction at distinct locations or times. Isozymes are homologous enzymes within a single organism that catalyze the same reaction but differ slightly in structure and more obviously... 

Purity CLECs are pure Critical factor for resolutins where the absence of contarninating enzymes/ isozymes greatly increases enantioselectivities, e.g., lipase-mediated reactions. Purification can be the most expensive and least productive step in CLEC manuftteture. 370-375, 377, 379, 381... 

The hver microsomal dmg-metabolizing system is of particular importance. This oxidative pathway is mediated by isozymes of the cytochrome family (Fig. 4). At least ten enzyme families exist to accommodate the abiUty of humans to handle many foreign molecules (21). 

Specialized controls Enzyme regulation is an important matter to cells, and evolution has provided a variety of additional options, including zymogens, isozymes, and modulator proteins. 

The enzymes of the glyoxylate cycle in plants are contained in glyoxysomes, organelles devoted to this cycle. Yeast and algae carry out the glyoxylate cycle in the cytoplasm. The enzymes common to both the TCA and glyoxylate pathways exist as isozymes, with spatially and functionally distinct enzymes operating independently in the two cycles. 

The two isozymes are both homodimers, composed of approximately 600 amino acids and possess approximately 60% homology. The three-dimensional structures of COX-1 and COX-2 are very similar. Each one consists of three independent units an epidermal growth factor-like domain, a membrane-binding section and an enzymic domain. The catalytic sites and the residues immediately adjacent are identical but for two small but crucial variations that result in an increase in the volume of the COX-2-active site, enabling it to accept inhibitor-molecules larger than those that could be accommodated in the COX-1 molecule. 

CYP26 consists of three enzymes each representing a separate subfamily (Table 1) probably are all involved in retinoic acid hydroxylation. CYP26A1 is an all trans retinoic acid hydroxylase which degrades retinoic acid, an important signalling molecule for vertebrate development. It acts through retinoic acid receptors. The other CYP26 isozymes are also retinoic acid hydroxylases. 

PKC is a family of enzymes whose members play central roles in transducing information from external stimuli to cellular responses. Members of this family of serine/ threonine kinases respond to signals that cause lipid hydrolysis. PKC isozymes phosphorylate an abundance of substrates, leading to both short-term cellular responses such as regulation of membrane transport and long-term responses such as memory and learning. 

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