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TIT for TAT: The Properties of Inosine and Adenosine in TATA Box DNA
Authors:Nina Pastor  Alexander D. MacKerell Jr.  Harel Weinstein
Affiliation:1. Facultad de Ciencias , Universidad Autónoma del Estado de Morelos , Av. Universidad 1001, 62120 , Cuernavaca , Morelos , México;2. Department of Physiology and Biophysics , Box 1218 Mount Sinai School of Medicine , New York , NY , 10029 , USA;3. School of Pharmacy, University of Maryland , 20 North Pine Street, Baltimore , MD , 21201 , USA;4. Department of Physiology and Biophysics , Box 1218 Mount Sinai School of Medicine , New York , NY , 10029 , USA
Abstract:Abstract

The sequence dependent conformation, flexibility and hydration properties of DNA molecules constitute selectivity determinants in the formation of protein-DNA complexes. TATA boxes in which AT basepairs (bp) have been substituted by IC bp (TITI box) allow for probing these selectivity determinants for the complexation with the TATA box-binding protein (TBP) with different sequences but identical chemical surfaces. The reference promoter Adenovirus 2 Major Late Promoter (mlp) is formed by the apposition of two sequences with very different dynamic properties: an alternating TATA sequence and an A-tract. For a comparative study, we carried out molecular dynamics simulations of two DNA oligomers, one containing the mlp sequence (2 ns), and the other an analog where AT basepairs were substituted by IC basepairs (1 ns). The simulations, carried out with explicit solvent and counteri-ons, yield straight purine tracts, the A-tract being stiffer than the I-tract, an alternating structure for the YRYR tracts, and hydration patterns that differ between the purine tracts and the alternating sequence tracts. A detailed analysis of the proposed interactions responsible for the stiffness of the purine tracts indicates that the stacking between the bases bears the strongest correlation to stiffness. The hydration properties of the minor groove in the two oligomers are distinctly different. Such differences are likely to be responsible for the stronger binding of TBP to mlp over the inosine-substituted variant. The calculations were made possible by the development, described here, of a new set of forcefield parameters for inosine that complement the published CHARMM all-hydrogen nucleic acid parametrization.
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