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Protein various enzymes

Approximately 500 of the 820 amino acid residues of the myosin head are highly conserved between various species. One conserved region, located approximately at residues 170 to 214, constitutes part of the ATP-binding site. Whereas many ATP-binding proteins and enzymes employ a /3-sheet-a-helix-/3-sheet motif, this region of myosin forms a related a-f3-a structure, beginning with an Arg at (approximately) residue 192. The /3-sheet in this region of all myosins includes the amino acid sequence... [Pg.545]

The simplest way to prepare a biocatalyst for use in organic solvents and, at the same time, to adjust key parameters, such as pH, is its lyophilization or precipitation from aqueous solutions. These preparations, however, can undergo substrate diffusion limitations or prevent enzyme-substrate interaction because of protein-protein stacking. Enzyme lyophilization in the presence of lyoprotectants (polyethylene glycol, various sugars), ligands, and salts have often yielded preparations that are markedly more active than those obtained in the absence of additives [19]. Besides that, the addition of these ligands can also affect enzyme selectivity as follows. [Pg.9]

The field of synthetic enzyme models encompasses attempts to prepare enzymelike functional macromolecules by chemical synthesis [30]. One particularly relevant approach to such enzyme mimics concerns dendrimers, which are treelike synthetic macromolecules with a globular shape similar to a folded protein, and useful in a range of applications including catalysis [31]. Peptide dendrimers, which, like proteins, are composed of amino acids, are particularly well suited as mimics for proteins and enzymes [32]. These dendrimers can be prepared using combinatorial chemistry methods on solid support [33], similar to those used in the context of catalyst and ligand discovery programs in chemistry [34]. Peptide dendrimers used multivalency effects at the dendrimer surface to trigger cooperativity between amino acids, as has been observed in various esterase enzyme models [35]. [Pg.71]

Chromatin remodeling, transcription factor modification by various enzyme activities, and the communication between the nuclear receptors and the basal transcription apparatus are accomplished by protein-protein interactions with one or more of a class of coregulator molecules. The number of these coregulator molecules now exceeds 100, not counting species variations and splice variants. The first of these to be described was the CREB-binding protein, CBP. CBP, through an amino terminal domain, binds to phosphorylated serine 137 of CREB and mediates transactivation in response to cAMP. It thus is described as a coactivator. CBP and... [Pg.471]

Little is known of how the biosynthetic metabolon is assembled, what mechanisms control the membrane-specific targeting, and how the conversions to apocarotenoids occur. Yet the current approach to drive import of bacterial or plant genes is to use transit sequences of a stromal protein that may limit the effectiveness of the transgene. In addition, for specific applications of controlling carotenoid composition, we need to better understand the interactions of the various enzymes,... [Pg.383]

The feature of xanthine oxidase which is no doubt of the greatest chemical interest, is the presence of several non-protein components. Much effort has been expended in attempting to elucidate the respective roles of iron, flavin and molybdenum in the various enzyme catalysed reactions. Numerous studies of the iron constituent have been made of late (45, 46, 47, 48, 49, 50), it having been found to be of the iron-sulphur (51 a, 51 b) type. Neither iron (19) nor molybdenum (31) can be removed reversibly from the enzyme, though the FAD can be (52, see below). [Pg.115]

In general, biomolecules such as proteins and enzymes display sophisticated recognition abilities but their commercial viability is often hampered by their fragile structure and lack of long term stability under processing conditions [69]. These problems can be partially overcome by immobilization of the biomolecules on various supports, which provide enhanced stability, repetitive and continuous use, potential modulation of catalytic properties, and prevention of microbial contaminations. Sol-gel and synthetic polymer-based routes for biomolecule encapsulation have been studied extensively and are now well established [70-72]. Current research is also concerned with improving the stability of the immobilized biomolecules, notably enzymes, to increase the scope for exploitation in various... [Pg.247]

The entrapment of various enzymes and proteins by clay minerals proceeds by weak interactions including electrostatic interactions, hydrogen and van der Waals bonding. Additivity of these various attractive forces renders the adsorption irreversible in some cases, but usually a leaching of enzyme is observed under working conditions. In order to fix the enzyme irreversibly at the surface of the clay layers different processes have been tried. In order to fix invertase on bentonite, Monsan and Durand [90] previously treated the clay mineral with a coupling agent,... [Pg.455]

In contrast to superoxide, which participates in one-electron transfer reactions as a reductant, nitric oxide is apparently able to oxidize various transition metal-containing proteins and enzymes. The study of NO reaction with hemoglobin has been started many years ago when... [Pg.697]

TTie diversity in the type of Fe-S clusters associated with these enzymes, catalyzing apparently simple hydration and/or dehydration reactions, is striking. Taken together, these results suggest that some of the Fe-S clusters that have been assigned redox roles in various enzymes may actually be functioning as catalytic groups. Clearly the field of Fe-S proteins, which a decade ago seemed to be well understood, has developed into a dynamic and fertile area for future research endeavors. [Pg.369]

Entry of animal cells into mitosis is based on the mitosis-promoting factor (MPF). MPF consists of CDK1 (cdc2) and cyclin B. The intracellular concentration of cyclin B increases constantly until mitosis starts, and then declines again rapidly (top left). MPF is initially inactive, because CDKl is phosphorylated and cyclin B is dephosphorylated (top center). The M phase is triggered when a protein phosphatase [1] dephosphorylates the CDK while cyclin B is phosphorylated by a kinase [2]. in its active form, MPF phosphorylates various proteins that have functions in mitosis—e.g., histone HI (see p. 238), components of the cytoskeleton such as the laminins in the nuclear membrane, transcription factors, mitotic spindle proteins, and various enzymes. [Pg.394]

In cellular smdies indium exposure has been associated with a general suppression of protein synthesis and the induction of heme oxygenase, which in turn is associated with the reduction of enzyme activities dependent on cytochrome P-450. The significance of these alterations in the synthesis and maintenance of various enzyme systems in relation to a possible carcinogenic response has not been determined. ... [Pg.401]

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See also in sourсe #XX -- [ Pg.37 , Pg.286 ]



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