Michael F. Aldersley scite author profile

The montmorillonite clay-catalyzed reactions of nucleotides generate oligomers as long as 50-mers. The extent of catalysis depends on the magnitude of the negative charge on the montmorillonite lattice and the number of cations associated with it. When cations in raw montmorillonites are replaced by sodium ions, the resulting Na(+)-montmorillonite does not catalyze oligomer formation because they saturate the interlayers between the platelets of montmorillonites, which blocks the binding of the activated monomers. Treating the montmorillonite with dilute hydrochloric acid replaces the cations on the raw montmorillonite with protons. The protonated montmorillonite, titrated to pH 6-7, serves as a catalyst for the formation of RNA oligomers. The titration does not add sufficient sodium ions to the interlayers of the montmorillonite platelets to prevent the activated monomer from entering. It was noted that noncatalytic montmorillonites have a higher negative charge on their platelets that is due mainly to the natural substitution of the tetravalent and trivalent elements in the montmorillonite lattice with trivalent and divalent metal ions, respectively. The larger negative charge on these montmorillonites was demonstrated by the almost 2-fold greater amounts of sodium hydroxide needed to titrate noncatalytic montmorillonites as compared to the catalytic montmorillonites. Adsorption isotherms established that the equilibrium binding is strongest for ImpA and weakest for ImpU. Of the 22 montmorillonites investigated, 12 were catalysts. This research provides insight into the mechanism of the catalytic process.

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The role of montmorillonite in its catalysis of RNA synthesis

Aldersley

Joshi

Price

et al. 2011

Applied Clay Science

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Intramolecular catalysis of amide hydrolysis by the carboxy-group. Rate determining proton transfer from external general acids in the hydrolysis of substituted maleamic acids

Aldersley¹,

Kirby²,

Lancaster³

et al. 1974

J. Chem. Soc., Perkin Trans. 2

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The highly efficient intramolecular catalysis by the carboxy-group of the hydrolysis of simple dialkylmaleamic acids is itself subject to external general acid catalysis. The kinetic characteristics of the general acid catalysed reaction are those expected for a diffusion-controlled proton transfer. At high concentrations of general acid, external catalysis disappears. This is shown to result from a change in rate-determining step, and is thus evidence for an intermediate on the reaction pathway. The intermediate can only reasonably be a tetrahedral addition intermediate. Kinetic evidence is now available for all the major steps on the reaction pathway, and the requirements for an enzyme catalyst carrying out the reaction can be specified in detail. The full mechanism specifically implicates the O-protonated amide as the reactive species in dilute acid.Smith, University Chemical Laboratory, Cambridge CB2 1 EW THE heart of any enzymic reaction is a highly efficient multiple interaction between substrate and catalytic groups brought close together in the enzyme-substrate complex. We use the reactions between the same groups held close together on the same molecule as models for the enzymic reactions. In most known systems intramolecular catalysis is much less efficient than enzymic catalysis, but it is becoming clear that the rates of at

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RNA dimer synthesis using montmorillonite as a catalyst: The role of surface layer charge

Aldersley

Joshi

2013

Applied Clay Science

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Homochiral Selectivity in RNA Synthesis: Montmorillonite-catalyzed Quaternary Reactions of D, L-Purine with D, L- Pyrimidine Nucleotides

Joshi

Aldersley

Ferris

2010

Orig Life Evol Biosph

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Selective adsorption of D, L-ImpA with D, L-ImpU on the platelets of montmorillonite demonstrates an important reaction pathway for the origin of homochirality in RNA synthesis. Our earlier studies have shown that the individual reactions of D, L-ImpA or D, L-ImpU on montmorillonite catalyst produced oligomers which were only partially inhibited by the incorporation of both D- and L-enantiomers. Homochirality in these reactions was largely due to the formation of cyclic dimers that cannot elongate. We investigated the quaternary reactions of D, L-ImpA with D, L-ImpU on montmorillonite. The chain length of these oligomers increased from 9-mer to 11-mer as observed by HPLC, with a concomitant increase in the yield of linear dimers and higher oligomers in the reactions involving D, L-ImpA with D, L-ImpU as compared to the similar reactions carried out with D-enantiomers only. The formation of cyclic dimers of U was completely inhibited in the quaternary reactions. The yield of cyclic dimers of A was reduced from 60% to 10% within the dimer fraction. 12 linear dimers and 3 cyclic dimers were isolated and characterized from the quaternary reaction. The homochirality and regioselectivity of dimers were 64.1% and 71.7%, respectively. Their sequence selectivity was shown by the formation of purine-pyrimidine (54-59%) linkages, followed by purine-purine (29-32%) linkages and pyrimidine-pyrimidine (9-13%) linkages. Of the 16 trimers detected, 10 were homochiral with an overall homochirality of 73-76%. In view of the greater homochirality, sequence- and regio- selectivity, the quaternary reactions on montmorillonite demonstrate an unexpectedly favorable route for the prebiotic synthesis of homochiral RNA compared with the separate reactions of enantiomeric activated mononucleotides.

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MALDI analysis of oligonucleotides directly from montmorillonite

Zagorevskii

Aldersley

Ferris

2006

J. Am. Soc. Mass Spectrom.

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Oligonucleotides synthesized on a montmorillonite catalyst were analyzed directly. By mixing the catalyst with a matrix (2,4,6-trihydroxyacetophenone or 6-aza-2-thiothymine) and dibasic ammonium citrate, higher molecular weight products were detected compared with "classical" methods such as gel electrophoresis and HPLC with UV as a detector. The oligomers (30-mers and higher) were detected by mass spectrometry even though their concentration was less than 10 Ϫ4 % of the total content of the RNA. This method is different from the (MALDI) analysis of the eluates from montmorillonite, which otherwise requires desalting. Placing reaction mixtures with a high concentration of buffers on homoionic, preferably Li-containing, montmorillonite does not require

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Characterization of the terahertz frequency optical constants of montmorillonite

Wilke

Ramanathan

LaChance

et al. 2014

Applied Clay Science

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Progress in demonstrating homochiral selection in prebiotic RNA synthesis

Joshi

Aldersley

Ferris

2013

Advances in Space Research

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