Assembly, catalysed

In the absence of an organic solvent, this assembly catalyses cyclohexene epoxidation with 30% aqueous H2O2 with high selectivity, especially when... 

Evans and co-workers investigated the effect of a number of -symmetric bis(oxazoline) ligands on the copper(II)-catalysed Diels-Alder reaction of an N-acyloxazolidinone with cyclopentadiene. Enantiomeric excesses of up to 99% have been reported (Scheme 3.4). Evans et al." suggested transition state assembly 3.7, with a square planar coordination environment around the central copper ion. In this scheme the dienophile should be coordinated predominantly in an cisoid fashion in... 

Such a subunit structure permits the construction of the virus partieles by a proeess in which the subunits self-assemble into structures held together by non-eovalent intermolecular forces as occurs in the process of erystallization. This eliminates the need for a sequenee of enzyme-catalysed reactions for coat synthesis. It also provides an automatic quality-control system, as subunits which may have major stmctural defects fail to become ineorporated into complete partieles. 

Finally, Mikami and Motoyama have used a p-hydroxy sulfonamide ligand to catalyse the enantioselective B-catalysed Diels-Alder reaction of glyoxylate with Danishefsky s dienes." " A favourable transition-state assembly for a one-directional diene-approach from the site proximal to the sulfonylamino moiety was proposed to explain the observed high enantio- and c (e fi o)-diastereos-electivity (Scheme 5.28). 

In addition to its role as the P-subunit of PHY, PDI acts independently by catalysing thiol/protein disulphide interchange. The role of PDI as the P-subunit in prolyl 4-hydroxylase is not related to its disulphide isomerase activity and experiments where the vertebrate PDI was mutated in both thioredoxin-like active domains had no effect on tetramer assembly (Vuori et al., 1992). PDI appears to function as a molecular chaperone, retaining the a-subunits in the correct catalytically active, non-aggregated form in the ER-lumen (John et al, 1993). Dissociation of the P-subunits results in insoluble aggregates of the a-subunits, analogous to a-subunits expressed in the absence of PDI. An additional function of PDI in the complex is to maintain the ER luminal location of the a-subunits, since deletion of the ER retention signal from PDI results in the secretion of the complex (Vuori et al., 1992). 

Extensive reviews of Diels-Alder reactions and hetero-Diels-Alder reactions in aqueous media have been presented. " " " " Micelles in the presence of catalytically active transition-metal ions catalyse the Diels-Alder reaction between 3-(/ -substituted phenyl)-l-(2-pyridyl)prop-2-en-l-ones with cyclopentadiene by a factor of 1.8 x 10 compared with the uncatalysed reaction in MeCN. " Diels-Alder reactions have been shown to be accelerated by encapsulation of both reactants by pseudospherical capsules assembled from self-complementary molecules (103). " ... 

The assembling of the hydroazulene AB-ring system 210 set out with three consecutive C/C connecting transformations (Scheme 31). Copper catalysed... 

C-methyl-D-erythritol 2,4-cyclodiphosphate synthase catalyses the conversion of 4-diphospho-cytidyl-2-C-methyl-D-erythritol 2-phosphate to 2-C-methyl-D-erythritol 2,4-cyclodiphosphate (MECDP) (Equation (7)). This reaction is part of the isoprenoid biosynthesis pathway in many plants and bacteria. The structure of the E. coli enzyme bound to Mn, cytosine monophosphate, and 2-C-methyl-D-erythritol 2,4-cyclodiphosphate has been determined. The enzyme in the crystal and probably in solution is trimeric, three monomers are packed in a circular assembly with three-fold symmetry. The active site is at the interface of two adjacent monomers all the ligands bound to the Mn + come from one monomer and a MECDP molecule. The structure of this active site is shown in Figure 29 ... 

Special dibenzoxazepinones 86, obtained through the general method described in Fig. 16 and containing, as a third additional functionality, a triple bond, have been further cyclized via a palladium-catalysed hydroamination reaction (Fig. 17) [68]. In this way complex polycyclic systems 87 have been assembled in three steps, taking advantage of the three additional functions embedded in the starting component the aryl fluoride, the phenol and the triple bond. 

Recently, Mottola [98] reported a sensor based on the disk-ring principle previously developed by Kamin and Wilson [99], and Wang and Lin [100]. Unlike Mottola s design, its forerunners involved no stationary ring electrode or rotation of the reactor part in addition, their reactor/electrode was located at the cell bottom. In Mottola s assembly, a product of an enzyme-catalysed reaction at a bioreactor rotated at a constant speed was hydrodynamically transported to a stationary ring electrode, where it was electrochemically monitored. The sample was transported to the detection imit by an tm-... 

Building blocks are amphiphiles, which have a delicate balance between the hydrophilic and hydrophobic group crucial to facilitate self-assembly. The peptide component serves to precisely control this balance, and the enzymatic reaction serves to alter it in favour of self-assembly. As illustrated in Fig. 3, the molecular switch may involve (1) phosphatase-catalysed removal of a (phosphate) group from the precursor to control the electrostatic balance (reaction (i) in Fig. 3) (2) hydrolysis of alkyl esters by hydrolases to change the amphiphilic balance (reaction (ii) in Fig. 3) or (3) condensation between two non-self-assembling precursors via a condensation reaction, e.g. involving protease-catalysed amide synthesis to alter the hydrophilic/hydrophobic balance (reaction (iii) in Fig. 3). A number of examples of each type are summarised in Table 1. 

In addition to chemical composition, as discussed in Sect. 3, the route of self-assembly also significantly affects the resulting structure because different kineti-cally folded structures may be formed. For example, subtilisin-triggered formation of Fmoc-Ls via ester hydrolysis gives rise to hollow nanotubular structures [22], whereas Fmoc-Ls gel formed by the thermolysin-catalysed reversed hydrolysis of the Fmoc-L/L2 system gives rise to nanofibrillar morphology [21]. 

Fig. 4 Free energy diagram for the two possible situations in enzyme-triggered formation of supramolecular assembly. Left. The enzyme-catalysed reaction and self-assembly process are both favoured independently and therefore uncoupled. Right. Enzyme-triggered self-assembly under thermodynamic control formation of the building blocks is thermodynamically unfavoured in isolation and occurs in reversible fashion when coupled to a sufficiently stable self-assembled structure formation...

Dynamic combinatorial libraries (DCLs) are continuously interconverting libraries that evenmally evolve to an equilibrium distribution [61-65]. This approach has been used successfully in the discovery of stable supramolecular assemblies from mixtures. Due to the nearly endless possible peptide sequences that can potentially be synthesised, the DCL approach is attractive for the identification of supramolecular peptide interactions. Indeed, disulfide exchange between cysteine residues has been explored for this purpose [66, 67] as has peptide-metal binding [68]. We have recently demonstrated protease-catalysed amide exchange in this context, which allows for the evolution of the self-assembled peptide structures, and will therefore allow exploration of peptide sequence space for biomaterials design. 

For this reason, in the last decade, inorganic electrochemical mediators, which catalyse the oxidation or reduction of H202 have been preferred to HRP and have been used for the assembling of oxidase-based biosensors [18-20]. This results in a decrease of the applied potential and the consequent avoidance of electrochemical interferences. Many electrochemical mediators have been used and many of them have found broad application, especially in glucose biosensors for diabetes control. However, due to the solubility of the mediator, they are generally employed in a single-use sensor and present some problems due to the low operative stability. 

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