Authors: Mohamed S. Sasi, Adel M. Mlitan, Abdulfattah M. Alkherraz

Abstract:

This research project aims to investigate difference in relative rates concerning phosphoryl transfer relevant to biological catalysis of DNA and RNA in the pH-independent reactions. Activated Models of DNA and RNA for alkyl-aryl phosphate diesters (with 4-nitrophenyl as a good leaving group) have successfully been prepared to gather kinetic parameters. Eyring plots for the pH– independent hydrolysis of 1 and 2 were established at different temperatures in the range 100–160 °C. These measurements have been used to provide a better estimate for the difference in relative rates between the reactivity of DNA and RNA cleavage. Eyring plot gave an extrapolated rate of kH2O = 1 × 10-10 s -1 for 1 (RNA model) and 2 (DNA model) at 25°C. Comparing the reactivity of RNA model and DNA model shows that the difference in relative rates in the pH-independent reactions is surprisingly very similar at 25°. This allows us to obtain chemical insights into how biological catalysts such as enzymes may have evolved to perform their current functions.

Keywords: DNA & RNA Models, Relative Rates, Reactivity.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1096037

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References:

[1] Watson, J. D.; Crick, F. H. C., Molecular Structure of Nucleic Acids: A Structure for Deoxyribose Nucleic Acid. Nature 1953, 171 (4356), 737- 738
[2] Lönnberg, T. A.; Helkearo, M.; Jancso, A.; Gajda, T., Mimics of small ribozymes utilizing a supramolecular scaffold. Dalton Transactions 2012, 41 (11), 3328-3338.
[3] Wolfenden, R., Degrees of Difficulty of Water-Consuming Reactions in the Absence of Enzymes. Chemical Reviews 2006, 106 (8), 3379-3396.
[4] Bunton, C. A., Mhala, M. M., Oldham, K. G. & Vernon, C. A. (1960) J. Chem.Soc. 1960, 3293–3301.
[5] Kumamoto, J., Cox, J. R., Jr., & Westheimer, F. H. (1956) J. Am. Chem. Soc.78, 4858–4860.
[6] Kirby, A. J. & Younas, M. (1970) J. Chem. Soc. B 1970, 510–513.
[7] Williams, N. H.; Takasaki, B.; Wall, M.; Chin, J., Structure and Nuclease Activity of Simple Dinuclear Metal Complexes: Quantitative Dissection of the Role of Metal Ions. Accounts of Chemical Research 1999, 32 (6), 485-493.
[8] Davis, A. M.; Hall, A. D.; Williams, A., Charge description of basecatalyzed alcoholysis of aryl phosphodiesters: a ribonuclease model. Journal of the American Chemical Society 1988, 110 (15), 5105-5108.
[9] Lönnberg, H., Cleavage of RNA phosphodiester bonds by small molecular entities: a mechanistic insight. Organic & Biomolecular Chemistry 2011, 9 (6), 1687-1703
[10] Kirby, A. J.; Marriott, R. E., General base catalysis vs. medium effects in the hydrolysis of an RNA model. Journal of the Chemical Society, Perkin Transactions 2 2002, (3), 422-427.
[11] Kosonen, M.; Yousefi-Salakdeh, E.; Strömberg, R.; Lönnberg, H., pHand buffer-independent cleavage and mutual isomerization of uridine 2
[prime or minute]- and 3
[prime or minute]-alkyl phosphodiesters: implications for the buffer catalyzed cleavage of RNA. Journal of the Chemical Society, Perkin Transactions 2 1998, (7)
[12] Åstro¨m, H. E. L. n.; E. Stro¨mberg, R., Acidity of secondary hydroxyls in ATP and adenosine analogues and the question of a 2',3'-hydrogen bond in ribonucleosides. Journal of the American Chemical Society 2004, 126 (45), 14710-14711.
[13] Kosonen, M.; Yousefi-Salakdeh, E.; Strömberg, R.; Lönnberg, H., pHand buffer-independent cleavage and mutual isomerization of uridine 2
[prime or minute]- and 3
[prime or minute]-alkyl phosphodiesters: implications for the buffer catalyzed cleavage of RNA. Journal of the Chemical Society, Perkin Transactions 2 1998, (7).
[14] Jarvinen, P.; Oivanen, M.; Lonnberg, H., Interconversion and phosphoester hydrolysis of 2',5'- and 3',5'-dinucleoside monophosphates: kinetics and mechanisms. The Journal of Organic Chemistry 1991, 56 (18), 5396-5401.
[15] Kirby, A. J.; Younas, M., The reactivity of phosphate esters. Diester hydrolysis. Journal of the Chemical Society B: Physical Organic 1970, 510-513.
[16] Kirby, A. J.; Younas, M., The reactivity of phosphate esters. Reactions of diesters with nucleophiles. Journal of the Chemical Society B: Physical Organic 1970, 1165-1172.
[17] Humphry, T.; Iyer, S.; Iranzo, O.; Morrow, J. R.; Richard, J. P.; Paneth, P.; Hengge, A. C. Journal of the American Chemical Society 2008, 130, 17858.