Your search keyword '"Cheng, DM"' showing total 7 results

1. Proton nuclear magnetic resonance study of a self-complementary decadeoxyribonucleotide, C-C-A-A-G-C-T-T-G-G.

Author

Kan LS, Cheng DM, Jayaraman K, Leutzinger EE, Miller PS, and Ts'o PO

Subjects

Base Sequence, Magnetic Resonance Spectroscopy, Nucleic Acid Conformation, Temperature, Oligonucleotides analysis, Oligoribonucleotides analysis

Published

1982

2. Proton nuclear magnetic resonance studies on dideoxyribonucleoside methylphosphonates.

Author

Kan LS, Cheng DM, Miller PS, Yano J, and Ts'o PO

Subjects

Magnetic Resonance Spectroscopy, Nucleic Acid Conformation, Structure-Activity Relationship, Temperature, Deoxyribonucleotides, Oligodeoxyribonucleotides

Abstract

A series of dideoxyribonucleoside methylphosphonates, d-ApA, d-ApT, d-TpA, and TpT, were synthesized chemically and the diastereoisomers of each dimer were separated [Miller, P. S., Yano, J., Yano, E., Carroll, C., Jayaraman, K., & Ts'o, P. O. P. (1979) Biochemistry 18, 5134]. The 1H NMR spectra of these compounds are similar to those of their parent diester compounds. Specifically, the assignments of the 1H resonances of the two diastereoisomers of d-ApA (designated as 1 and 2) were reaffirmed by comparing with the unmodified, parent d-ApA. The absolute configuration of the phosphonate methyl group of the two isomers (d-ApA)1 and (d-ApA)2 was determined by the NOE technique. The 1H NMR spectra of the diastereoisomers of d-ApA, as well as the corresponding monomer components dAp and CH3pdA, and TpT were analyzed by spectrum simulation techniques. Thus, all the coupling constants and chemical shifts of the proton resonances of the deoxyribofuranose ring and the phosphonate methyl group could be precisely determined. These data provide the information for an analysis of the sugar puckering and backbone conformations of these novel nonionic nucleic acid analogues. It was found that the conformations of the sugar-phosphate backbones of each isomer are similar to each other and are similar to the conformations of the parent dinucleoside monophosphates. The average adenine stacking conformations of (d-ApA)1 and (d-ApA)2 were described in numerical coordinates derived from a computer analysis which included both ring-current magnetic anisotropy and atomic diamagnetic anisotropy effects. The two computer-derived conformational models are similar to those derived from the graphic approximation based only on the ring-current effects. For each pair of dimer analogues, the base stacking mode of isomer 1 is similar to that of its parent diester while the extent of base overlap in isomer 2 is less than that in isomer 1. The results of the conformational analysis based on NMR data are consistent with the results obtained from ultraviolet and circular dichroism measurements on these dimers.

Published

1980

3. Preparation of a decadeoxyribonucleotide helix for studies by nuclear magnetic resonance.

Author

Miller PS, Cheng DM, Dreon N, Jayaraman K, Kan LS, Leutzinger EE, Pulford SM, and Ts'o PO

Subjects

Chromatography, High Pressure Liquid, Circular Dichroism, Magnetic Resonance Spectroscopy, Oligodeoxyribonucleotides metabolism, Phosphoric Diester Hydrolases pharmacology, Spectrophotometry, Ultraviolet, Oligodeoxyribonucleotides chemical synthesis, Oligonucleotides chemical synthesis

Abstract

A self-complementary decadeoxyribonucleotide d-CpCpApApGpCpTpTpGpG was chemically synthesized by a procedure based on the phosphotriester approach. This procedure was carefully monitored and appropriately modified to ensure the purity of oligomer components at each step of the synthetic scheme. Extensive use was made of both analytical and preparative high-pressure liquid chromatography to purify and characterize the decamer and its constituent oligonucleotides. The final product (1318 A257 units or 16.5 mumol) was obtained in high purity and sufficient quantity for extensive physical studies by UV, CD, and NMR spectroscopy. Our preliminary results show that at a strand concentration of 1.3 X 10(-5) M and in 0.10 M sodium chloride and 0.01 M sodium phosphate buffer, pH 7.0, the decamer duplex has a Tm at 47 degrees C. The CD spectrum of this decamer duplex is similar to that of B-form DNA. All the resonances of the nonexchangeable base protons of the decamer are well resolved in the 1H NMR spectrum, when the single-stranded form was examined by using a 360-MHz spectrometer and when the duplex form was examined by using a 600-MHz spectrometer. These base proton resonances have been tentatively assigned by using the incremental assignment technique. Although the decamer duplex serves as a substrate for AluI restriction endonuclease, it is not cleaved by HindIII endonuclease.

Published

1980

4. Conformational study of two short pentadeoxyribonucleotides, d-CpCpApApG and d-CpTpTpGpG, and their fragments by proton nuclear magnetic resonance.

Author

Cheng DM, Kan LS, Leutzinger EE, Jayaraman K, Miller PS, and Ts'o PO

Subjects

Magnetic Resonance Spectroscopy, Nucleic Acid Conformation, Oligodeoxyribonucleotides, Oligonucleotides

Published

1982

5. Nuclear Overhauser effect as a tool for the complete assignment of nonexchangeable proton resonances in short deoxyribonucleic acid helices.

Author

Frechet D, Cheng DM, Kan LS, and Ts'o PO

Subjects

Base Sequence, Chemical Phenomena, Chemistry, Physical, Magnetic Resonance Spectroscopy, Nucleic Acid Conformation, DNA

Abstract

A new strategy for the assignment of nonexchangeable proton resonances in oligonucleotide duplexes is presented and used to interpret the spectra of the oligonucleotide helix d(CpGpCpGpCpG) X d(CpGpCpGpCpG) in low salt (B form). This procedure is based on the use of sequential homodecoupling (1D) or COSY (2D) for the interconnection of the sugar resonances pertaining to the same residue and on the measurement of nuclear Overhauser effect (NOE) (1D or 2D) between critically located protons in order to establish the connectivity between the base protons and the sugar protons, as well as between consecutive base-sugar residues. The assignment performed by this method was found in perfect agreement with the one made previously by the incremental procedure [Cheng, D. M., Kan, L.-S., Frechet, D., Ts'o, P. O. P., Uesugi, S., Shida, T., & Ikehara, M. (1983) Biopolymers (in press)]. Also, this method is demonstrated to be applicable to DNA short helices containing A X T base pairs.

Published

1983

6. Synthesis and characterization of the dinucleoside monophosphates containing 2'-fluoro-2'-deoxyadenosine.

Author

Uesugi S, Takatsuka Y, Ikehara M, Cheng DM, Kan LS, and Ts'o PO

Subjects

Circular Dichroism, Dinucleoside Phosphates, Indicators and Reagents, Methods, Nucleic Acid Conformation, Nucleic Acid Denaturation, Nucleosides chemical synthesis, Spectrophotometry, Ultraviolet, Deoxyadenosines analogs & derivatives, Oligonucleotides chemical synthesis

Abstract

Three dinucleoside monophosphates containing 2'-fluor-2'-deoxyadenosine (dAfl), dAfl-dAfl, dAfl-A, and A-dAfl, were synthesized chemically. Characterization of these dimers has been performed by UV absorption, CD, and 1H NMR spectroscopies. The results showed that all three dimers have a stacked conformation with a geometry similar to that of A-A but with greater extent of base-base over-lapping than A-A. This interpretation is verified by the data of chemical shifts and coupling constants of 1H NMR study on these dimers (D. M. Cheng, L. S. Kan, P. O. P. Ts'o. S. Uesugi, Y. Takatsuka, and M. Ikehara unpublished data). All three dimers form 2U.1A complexes with poly(uridylic acid). The Tm of dAfl-dAfl.2poly(U) is higher than that of dAfl-A.2poly(U), which in turn is higher than that of A-dAfl.2poly(U). The NMR results clearly indicate that the conformation of the furanose of dAfl moiety in these dimers is more favored toward 3'-endo than 2'-endo puckering in comparison with the adenosine. The effects of 3' substituents on oligo- and polynucleotide conformation are also discussed.

Published

1981

7. Conformational flexibility of the 3' acceptor end of transfer ribonucleic acid.

Author

Cheng DM, Danyluk SS, Dhingra MM, Ezra FS, MacCoss M, Mitra CK, and Sarma RH

Subjects

Base Sequence, Models, Molecular, Nucleic Acid Conformation, Phenylalanine, RNA, Transfer

Abstract

The intimate details of the conformational features and dynamics of the trinucleoside diphosphates CpCpA and ApCpC in aqueous solution have been arrived at by the complete analysis of their proton magnetic resonance spectra. In addition to the right-handed stacked species in which the phosphodiester torsions conform to the gauche-gauche domains, sugar puckers 3E, C4'-C5 approximately equal to 60 degrees, C5'-O5' approximately 180 degrees, C3'-O3' approximately equal to 205 degrees, and chi CN approximately equal to 40 degrees, the trimers display a variety of spatial configurations, an important one being a bulged configuration in which the central nucleotide unit is bulged out, enabling stacking interactions between the end units. It is further shown that the 3' acceptor end of tRNA, CpCpA, displays considerable flexibility for the terminal adenine nucleotide unit. Theoretical NMR calculations demonstrate that the predominant solution conformation does not conform to the CCA terminus of tRNA as reported by four independent crystallographic studies of tRNAPhe. It is shown that the preferred intramolecular order of CCA in solution is such that chi 1 = chi 2 = chi 3 = 40 degrees, all the three sugars are in 3E, psi 1 = psi 2 = psi 3 = 60 degrees, phi 2 and phi 3 = 170 and 180 degrees, respectively, phi 1 = phi 2' = 205 degrees, and omega 1/omega 1 and omega 2/omega 2' = 240/205 degrees and 295/265 degrees, respectively.

Published

1980