Ligands amplification

Swann, P. G. Casanova, R. A. Desai, A. Frauenhoff, M. M. Urbancic, M. Slomczynska, U. Hopfmger, A. J. Le Breton, G. C. Venton, D. L. Nonspecific protease-catalyzed hydrolysis/synthesis of a mixture of peptides Product diversity and ligand amplification by a molecular trap. Biopolymers 1997, 40, 617-625. 

These cascades serve as operational amplifiers of the initial ligand—receptor interaction. In each step of the process, amplification by several powers of 10 may occur so that an original signal maybe multiphed several millionfold (63). 

It has been established, that both DN and Ibp form complex compounds with ions Eu(III), Sm(III), Tb(III) and Dy(III), possessing luminescent properties. The most intensive luminescence is observed for complex compounds with ion Tb(III). It has been shown, that complexation has place in low acidic and neutral water solutions at pH 6,4-7,0. From the data of luminescence intensity for the complex the ratio of component Tb Fig was established equal to 1 2 by the continuous variations method. Presence at a solution of organic bases 2,2 -bipyridil, (Bipy) and 1,10-phenanthroline (Phen) causes the analytical signal amplification up to 250 (75) times as a result of the Bipy (Phen) inclusion in inner coordination sphere and formation of different ligands complexes with component ratio Tb Fig Bipy (Phen) = 1 2 1. 

A series of chiral p-hydroxysulfoximine ligands have been synthesised by Bolm et al. and further investigated for the enantioselective conjugate addition of ZnEt2 to various chalcone derivatives. The most eiScient sulfoximine, depicted in Scheme 2.33, has allowed an enantioselectivity of up to 72% ee to be obtained. These authors assumed a nonmonomeric nature of the active species in solution, as suggested by the asymmetric amplification in the catalysis with a sulfoximine of a low optical purity. 

The effect of receptor stimulation is thus to catalyze a reaction cycle. This leads to considerable amplification of the initial signal. For example, in the process of visual excitation, the photoisomerization of one rhodopsin molecule leads to the activation of approximately 500 to 1000 transdudn (Gt) molecules, each of which in turn catalyzes the hydrolysis of many hundreds of cyclic guanosine monophosphate (cGMP) molecules by phosphodiesterase. Amplification in the adenylate cyclase cascade is less but still substantial each ligand-bound P-adrenoceptor activates approximately 10 to 20 Gs molecules, each of which in turn catalyzes the production of hundreds of cyclic adenosine monophosphate (cAMP) molecules by adenylate cyclase. 

In a related study involving structurally similar chiral methylzinc anisyl fencholates, both chiral amplification and depletion were observed in the catalytic alkylations of benzaldehyde.209 Thus, methylzinc anisyl fencholates, bearing sterically small substituents in the ortho-position of the anisyl group, crystallized preferentially as homochiral dimers, as shown for the methyl-substituted anisyl group in Scheme 91. Because of the greater stability of the homochiral dimers, scalemic mixtures of both enantiomers of the ligand showed a chiral depletion of the benzyl alcohol. 

It may not be necessary to employ an optically pure chiral ligand (BINOL) for the preparation of the catalyst because a high degree of asymmetric amplification can be expected. 

Although the mechanism of this reaction remains unknown, we can visualize how such amplification could occur by assuming that the chirality-amplifying molecule is a tetrahedral zincate that includes two of the chiral effector molecules as ligands. The scheme is illustrated by the reactions depicted in Fig. 11.4. 

The continuous availability of trillions of independent microreactors greatly multiplied the initial mixture of extraterrestrial organics and hydrothermal vent-produced chemicals into a rich variety of adsorbed and transformed materials, including lipids, amphiphiles, chiral metal complexes, amino add polymers, and nudeo-tide bases. Production and chiral amplification of polypeptides and other polymeric molecules would be induced by exposure of absorbed amino adds and organics to dehydration/rehydration cydes promoted by heat-flows beneath a sea-level hydro-thermal field or by sporadic subaerial exposure of near-shore vents and surfaces. In this environment the e.e. of chiral amino adds could have provided the ligands required for any metal centers capable of catalyzing enantiomeric dominance. The auto-amplification of a small e.e. of i-amino adds, whether extraterrestrially delivered or fluctuationally induced, thus becomes conceptually reasonable. 

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