T.N. Jaishree scite author profile

The RNA aptamer complexes with tobramycin and neomycin B utilize common architectural principles to generate RNA-binding pockets for the bound aminoglycoside antibiotics. In each case, the 2-deoxystreptamine ring I and an attached pyranose ring are encapsulated within the major groove binding pocket, which is lined with mismatch pairs. The bound antibiotic within the pocket is capped over by a looped-out base and anchored in place through intermolecular hydrogen bonds involving charged amine groups of the antibiotic.

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Structural influence of RNA incorporation in DNA: Quantitative nuclear magnetic resonance refinement of d(CG)r(CG)d(CG) and d(CG)r(C)d(TAGCG)

Jaishree

Marel²,

Boom³

et al. 1993

Biochemistry

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RNA and DNA adopt different types of conformations, i.e., A-type with C3'-endo sugar pucker for RNA and B-type with C2'-endo sugar pucker for DNA, respectively. The structural influence of the incorporation of RNA nucleotides into DNA is less understood. In this paper, we present the three-dimensional structures of two RNA-containing oligonucleotides, d(CG)r(CG)d(CG) and d(CG)r(C)d-(TAGCG), as determined by the NMR refinement procedure, and assess the possible structural perturbation of DNA induced by RNA. With a single RNA insertion into an octamer DNA, its overall conformation remains as the canonical B-DNA, except that the sugar pucker of the rC3 residue is C3'-endo (pseudorotation angle P = 3.6 degrees). In contrast, the hybrid hexamer is neither the pure B-DNA nor the pure A-DNA conformation. Instead, we propose a model in which the DNA parts adopt B conformation, whereas the RNA part adopts A conformation, with the overall conformation closer to A-DNA. To ensure an exhaustive search of the conformational space, the model was subjected to 100-ps simulated annealing with slow cooling or 100-ps molecular dynamics with subsequent quenching. Models obtained at different time points of the trajectories were further subjected to the SPEDREF NOE refinement [Robinson & Wang (1992) Biochemistry 31, 3524] and they appeared to arrive at a convergent model (< 0.5 A RMSD for the central four base pairs). The consensus hexamer structure contains a significant discontinuity at the (rG4)p(dC5) step with a base pair tilt angle of 6.7 degrees and roll angle of 11.5 degrees.(ABSTRACT TRUNCATED AT 250 WORDS)

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NMR studies of pH-dependent conformational polymorphism of alternating (C-T)n sequences

Jaishree

Wang

1993

Nucl Acids Res

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Alternating (C-T)n sequences are involved in the H-DNA structure associated with (GA)n.(CT)n sequences. Low pH values facilitate H-DNA formation. We have undertaken a detailed analysis of the structural consequences of the (C-T)n sequence as a function of pH. The structures of three DNA oligonucleotides, d(CT)4, d(TC)4 and d(TC)15, have been studied by NMR. We found that their conformations are polymorphic and pH dependent. There are at least three major conformational species: an antiparallel-stranded (APS) duplex with entirely C:T base pairs at pH 7, an antiparallel-stranded (APS) duplex with entirely C+:T base pairs at pH 3, and a possible parallel-stranded (PS) duplex with C+:C and T:T base pairs near pH 5. In the intermediate pH range, the APS duplex may have varying numbers of C+:T and C:T base pairs, and there may be a fast exchange going on between APS duplex species involving these two kinds of base pairs. However, the transition between the APS and PS duplexes is slow. Structural refinement of the two octamers, d(TC)4 and d(CT)4, at pH = 6.9 and pH = 3 using 2D-NOE data suggests that the molecules are likely in the duplex form at 5 degrees C. We lack evidence that the structure at pH 3 is a PS structure with T nucleotides residing in the exterior of the helix. Titration of the longer oligonucleotide, d(TC)15, showed a prominent pKa of approximately 6, approaching the value of 7.0 obtained from the titration of poly-(dC).

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Solution Structure of Prokaryotic Ribosomal Protein S17 by High-Resolution NMR Spectroscopy

1996

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The solution of a primary 16S rRNA-binding ribosomal protein, S17, was investigated by two- and three-dimensional homonuclear and heteronuclear magnetic resonance spectroscopy. Almost complete chemical shift assignments for the 1H, 15N, and 13C resonances have been obtained. The NMR data have been rigorously analyzed using a combination of distance geometry, back-calculation, and simulated annealing refinement techniques, and a high-resolution three-dimensional structure has been deduced. The protein consists of a single twisted antiparallel beta-pleated sheet with Greek-key topology. The five beta-strands are connected by extended loops that are flexible compared to the beta-sheet core structure and appear not to adopt one definite conformation in solution. Two of these loops contain many of the residues that have been implicated in binding ribosomal RNA. The location and distribution of these residues and other positively charged side chains on the protein surface suggest an interaction with two distinct regions of ribosomal RNA.

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T.N. Jaishree

Saccharide–RNA recognition in a complex formed between neomycin B and an RNA aptamer

Structural influence of RNA incorporation in DNA: Quantitative nuclear magnetic resonance refinement of d(CG)r(CG)d(CG) and d(CG)r(C)d(TAGCG)

NMR studies of pH-dependent conformational polymorphism of alternating (C-T)n sequences

Solution Structure of Prokaryotic Ribosomal Protein S17 by High-Resolution NMR Spectroscopy

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