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1.
N Zhou  S Manogaran  G Zon  T L James 《Biochemistry》1988,27(16):6013-6020
Exchangeable and nonexchangeable protons of [d(GGTATACC)]2 in aqueous cacodylate solution were assigned from two-dimensional nuclear Overhausser effect (2D NOE) spectra. With phase-sensitive COSY and double quantum filtered COSY (DQF-COSY) experiments, the cross-peaks resulting from deoxyribose ring conformation sensitive proton-proton vicinal couplings, i.e., all 1'-2', 1'-2", 2'-3', and 3'-4' couplings and six from 2"-3' couplings, were observed. From the cross-peak fine structure, the 2',2" proton assignments can be confirmed; coupling constants J1'2' and J1'2" and sums of coupling constants involving H2' and H2" for all residues and H3' for C8 were obtained. The DISCO procedure [Kessler, H., Muller, A., & Oschkinat, H. (1985) Magn. Reson. Chem. 23, 844-852] was used to extract individual 1'-2' and 1'-2" coupling constants. The sum of coupling constants involving H1' or H3' was measured from the one-dimensional spectrum where signal overlap is not a problem. Analysis of the resulting coupling constants and sums of coupling constants, in the manner of Rinkel and Altona [Rinkel, L. J., & Altona, C. (1987) J. Biomol. Struct. Dyn. 4, 621-649], led to the following conclusion: C2'-endo deoxyribose ring conformation is predominant for every residue, but a significant amount of C3'-endo conformation may exist, ranging from 14% to 30%.  相似文献   

2.
We present the high-resolution solution structures of a self-complementary DNA decamer duplex featuring a single alpha-anomeric nucleotide per strand encompassed by a set of 3'-3' and 5'-5' phosphodiester linkages, d(GCGAAT-3'-3'-alphaT-5'-5'-CGC)2, alphaT, and its unmodified control, d(GCGAATTCGC)2, obtained by restrained molecular dynamics. Interproton distance and deoxyribose ring torsion angle restraints were deduced from homonuclear NOESY and DQF-COSY data, respectively. For both the control and alphaT duplexes, excellent global convergence was observed from two different (A- and B-) starting models. The final average structures of the two duplexes are highly homologous, and overall possess the traits characteristic of right-handed B-DNA duplexes. However, localized differences between the two structures stem from the enhanced conformational exchange in the deoxyribose ring of the cytidine following the 5'-5' linkage, the C3'- exo pseudorotation phase angle of the alpha-nucleotide, and unusual backbone torsions in the 3'-3' and 5'-5' phosphodiester linkages. The structural data reported here are relevant to the design of antisense therapeutics comprised of these modifications.  相似文献   

3.
The conformation at the dA-dT junction in d-(AAAAATTTTT)2 was investigated by using a variety of phase-sensitive two-dimensional nuclear magnetic resonance experiments at 500 MHz for detailed studies of the deoxyribose ring puckers. Conformational constraints were collected from two-dimensional nuclear Overhauser enhancement spectra recorded with short mixing times and from quantitative simulations of the cross-peaks in two-dimensional correlated spectra. Overall, the decamer duplex adopts a conformation of the B-DNA type, and for dA4 and dA5 the pseudorotation phase angle P is in the standard range 150-180 degrees. The deoxyribose puckers for the other nucleotides deviate significantly from the standard B-DNA structure. Spectrum simulations assuming either static deviations from standard B-DNA or a simple two-state dynamic equilibrium between the C2'-endo and C3'-endo forms of the deoxyribose were used to analyze the experimental data. It was thus found that the ring pucker for dT6 deviates from the regular C2'-endo form of B-DNA by a static distortion, with the pseudorotation phase angle P in the range 100-130 degrees, and a similar value of P is indicated for dT7. For the peripheral base pairs dynamic distortions of the C2'-endo form of the deoxyribose were found. In agreement with recent papers on related duplexes containing (dA)n tracts, we observed prominent nuclear Overhauser effects between adenine-2H and deoxyribose-1'H, which could be largely due to pronounced propeller twisting as observed in the crystal structures of (dA)n-containing compounds.  相似文献   

4.
Conformational analysis and 1H NMR spectral assignments have been carried out using COSY and RELAY methods for a series of related oligoribonucleotides including two pentamers with 5'-dangling bases. Intraresidue long-range five bond scalar coupling was observed between pyrimidine H5 and H1' protons in the COSY-45 spectra and this feature was useful for both assignment purposes and conformational analysis. The ribose ring conformations were predominantly C3'-endo with the C2'-endo population increasing at the 3'-terminus. The 5'-dangling bases were not stacked efficiently, exhibiting lower % C3'-endo values than their 3'-nearest neighbors. Backbone torsion angle population. beta t, gamma +, epsilon t, were determined using 1H-1H, 1H-31P, and 13C-31P coupling constants. From beta t and gamma + populations the U3-G4 step in CAUG was found to be less efficiently stacked than the C1-A2 and A2-U3 steps. This observation in solution is consistent with the fiber diffraction A-RNA model (S. Arnott, D.W.L. Hukins, S.D. Dover, W. Fuller and A.R. Hodgson, J. Mol. Biol. 81, 107-122, 1973) which also predicts poor stacking in a U-G dinucleotide. The epsilon t populations were greater than 65% for all C3'-O3' bonds and consistent with a right-handed A-RNA helix.  相似文献   

5.
Conformational properties of branched RNA fragments in aqueous solution   总被引:1,自引:0,他引:1  
M J Damha  K K Ogilvie 《Biochemistry》1988,27(17):6403-6416
The conformational properties of branched trinucleoside diphosphates ACC, ACG, AGC, AGG, AUU, AGU, AUG, ATT, GUU, and aAUU [XYZ = X(2'p5'Y)3'p5'Z] have been studied in aqueous solution by nuclear magnetic resonance (1H, 13C), ultraviolet absorption, and circular dichroism. It is concluded from these studies that the purine ring of the central residue (X; e.g., adenosine) forms a base-base stack exclusively with the purine or pyrimidine ring of the 2'-nucleotidyl unit (Y; 2'-residue). The residue attached to the central nucleoside via the 3'-5'-linkage (Z; 3'-residue) is "free" from the influence of the other two heterocyclic rings. The ribose rings of the central nucleoside and the 2'- and 3'-residues exist as equilibrium mixtures of C2'-endo (2E)-C3'-endo (3E) conformers. The furanose ring of the central nucleoside (e.g., A) when linked to a pyrimidine nucleoside via the 2'-5'-linkage shows a higher preference for the 2E pucker conformation (e.g., AUG, AUU, ACG, ca. 80%) than those linked to a guanosine nucleoside through the same type of bond (AGU, AGG, AGC, ca. 70%). This indicates some correlation between nucleotide sequence and ribose conformational equilibrium. The 2E-3E equilibrium of 2'-pyrimidines (Y) shows significant, sometimes exclusive, preference (70-100%) for the 3E conformation; 3'-pyrimidines and 2'-guanosines have nearly equal 2E and 3E rotamer populations; and the ribose conformational equilibrium of 3'-guanosines shows a preference (60-65%) for the 2E pucker. Conformational properties were quantitatively evaluated for most of the bonds (C4'-C5', C5'-O5', C2'-O2', and C3'-O3') in the branched "trinucleotides" AUU and AGG by analysis of 1H-1H, 1H-31P, and 13C-31P coupling constants. The C4'-C5' bond of the adenosine units shows a significant preference for the gamma + conformation. The dominant conformation about C4'-C5' and C5'-O5' for the 2'-and 3'-nucleotidyl units is gamma + and beta t, respectively, with larger gamma + and beta t rotamer populations for the 2'-unit. The increased conformational purity in the 2'-residue, compared to the 3'-residue, is ascribed to the presence of an ordered (adenine----2'-residue) stacked state. The favored rotamers about C3'-O3' and C2'-O2' are epsilon- and epsilon'-, respectively. The conformational features of AUU and AGG were compared to those of their constitutive dimers A3'p5'G, A2'p5'G, A3'p5'U, and A2'p5'U and monomers 5'pG and 5'pU.  相似文献   

6.
O-alpha-D-Galactopyranosyl-(1---4)-D-galactopyranose, C12H22O11, Mr = 342.30, crystallises in the orthorhombic space group P2(1)2(1)2(1), and has alpha = 5.826(1), b = 13.904(3), c = 17.772(4) A, Z = 4, and Dx = 1.579 g.cm-3. Intensity data were collected with a CAD4 diffractometer. The structure was solved by direct methods and refined to R = 0.063 and Rw = 0.084 for 2758 independent reflections. The glycosidic linkage is of the type 1-axial-4-axial with torsion angles phi O-5' (O-5'-C-1'-O-1'-C-4) = 98.1(2) degrees, psi C-3 (C-3-C-4-O-1'-C-1') = -81.9(3) degrees, phi H (H-1'-C-1'-O-1'-C-4) = -18 degrees, and psi H (H-4-C-4-O-1'-C-1') = 35 degrees. The conformation is stabilised by an O-3 . . . O-5' intramolecular hydrogen-bond with length 2.787(3) A and O-3-H . . . O-5' = 162 degrees. The glycosidic linkage causes a folding of the molecule with an angle of 117 degrees between the least-square planes through the pyranosidic rings. The crystal investigated contained 56(1)% of alpha- and 44(1)% of beta-galabiose as well as approximately 70% of the gauche-trans and approximately 30% of the trans-gauche conformers about the exocyclic C-5'-C-6' and C-5-C-6 bonds. The crystal packing is governed by hydrogen bonding that engages all oxygen atoms except the intramolecular acceptor O-5' and the glycosidic O-1' oxygen atoms.  相似文献   

7.
Irradiation of dTpdT with 300 kJ/m2 of 254 nm produces numerous photo-products, one of which labeled dT6pd4T[1] was purified by HPLC. dT6pd4T has a UV spectrum (H20, pH 7) with lambda max = 326 nm and lambda min = 265 nm, and a P-31 NMR resonance at -3.46 ppm (normal dTpdT occurs at -4.01 ppm; TMP, 30 degrees C). 2-D COSY NMR spectra facilitated proton resonance assignments and 2-D NOESY spectra aided analysis of spatial orientation. Carbon-13 and proton-coupled P-31 NMR spectra of dT6pd4T were also obtained. These analyses indicate: C5=C6 of dT6p- is saturated and the -pd4T base is more aromatic; the dT6p- base possesses a configuration of 5R, 6S; dT6p- and -pd4T have anti-type glycosidic conformations; furanose conformation of dT6p- is mainly C3'-endo and that of -pd4T exists in a C3'-endo in equilibrium C3'-exo; exocyclic bonds gamma (C5'-C4'), beta (05'-C5') and epsilon (C3'-03') are non-classical rotamers; dihedral angle about epsilon (C3'-03') is smaller relative to dTpdT.  相似文献   

8.
The spatial structure of duplex (Phn-NH(CH2)2NH)pd(CCAAACA).pd(TGTTTGGC) having a N-(2-oxyethyl)-phenazinium residue covalently linked with the 5'-terminal phosphate of the heptanucleotide was studied by means of one- and two-dimensional 1H-NMR spectroscopy. The resonances of phenazinium protons, ethylenediamine linker protons, as well as, oligonucleotide H5/H6/H8/CH3 base protons and H1',H2'a, H2'b, H3', H4' deoxyribose protons have been assigned by means of 1H-COSY, 1H-NOESY and 1H-13C-COSY. The presence of the phenazine residue in duplex causes an additional imino proton signal of the terminal (G-7).(C-1) base pair, suggesting a higher stability of the duplex (Phn-NH(CH2)2NH)pd(CCAAACA).pd(TGTTTGGC) as compared to the unmodified duplex pd(CCAAACA).pd(TGTTTGGC). Analysis of NOE interactions between protons of the dye and the oligonucleotides show the phenazinium polycyclic system to intercalate between G-7 and C-8 residues of the octanucleotide.  相似文献   

9.
Determination of the DNA sugar pucker using 13C NMR spectroscopy   总被引:1,自引:0,他引:1  
R A Santos  P Tang  G S Harbison 《Biochemistry》1989,28(24):9372-9378
Solid-state 13C NMR spectroscopy of a series of crystalline nucleosides and nucleotides allows direct measurement of the effect of the deoxyribose ring conformation on the carbon chemical shift. It is found that 3'-endo conformers have 3' and 5' chemical shifts significantly (5-10 ppm) upfield of comparable 3'-exo and 2'-endo conformers. The latter two conformers may be distinguished by smaller but still significant differences in the carbon chemical shifts at the C-2' and C-4' positions. High-resolution solid-state NMR of three modifications of fibrous calf thymus DNA shows that these trends are maintained in high-molecular-weight DNA and confirms that the major ring pucker in A-DNA is 3'-endo, while both B-DNA and C-DNA are largely 2'-endo. The data show that 13C NMR spectroscopy is a straightforward and useful probe of DNA ring pucker in both solution and the solid state.  相似文献   

10.
One-dimensional nuclear Overhauser effect (NOE) in nuclear magnetic resonance spectroscopy along with stereochemically sound model building was employed to derive the structure of the hybrid poly(rA).poly(dT) in solution. Extremely strong NOE was observed at AH2' when AH8 was presaturated; strong NOEs were observed at TH2'TH2' when TH6 was presaturated; in addition the observed NOEs at TH2' and TH2' were nearly equal when TH6 was presaturated. There was no NOE transfer to AH3' from AH8 ruling out the possibility of (C-3'-endo, low anti chi approximately equal to 200 degrees to 220 degrees) conformation for the A residues. The observed NOE data suggest that the nucleotidyl units in both rA and dT strands have equivalent conformations: C-2'-endo/C-1'-exo, anti chi approximately equal to 240 degrees to 260 degrees. Such a nucleotide geometry for rA/dT is consistent with a right-handed B-DNA model for poly(rA).poly(dT) in solution in which the rA and dT strands are conformationally equivalent. Molecular models were generated for poly(rA).poly(dT) in the B-form based upon the geometrical constraints as obtained from the NOE data. Incorporation of (C-2'-endo pucker, chi congruent to 240 degrees to 260 degrees) into the classical B-form resulted in severe close contacts in the rA chain. By introducing base-displacement, tilt and twist along with concomitant changes in the backbone torsion angles, we were able to generate a B-form for the hybrid poly(rA).poly(dT) fully consistent with the observed NOE data. In the derived model the sugar pucker is C-1'-exo, a minor variant of C-2'-endo and the sugar base torsion is 243 degrees, the remaining torsion angles being: epsilon = 198 degrees, xi = 260 degrees, alpha = 286 degrees, beta = 161 degrees and gamma = 72 degrees; this structure is free of any steric compression and indicates that it is not necessary to switch to C-3'-endo pucker for rA residues in order to accommodate the 2'-OH group. The structure that we have proposed for the polynucleotide RNA-DNA hybrid in solution is in complete agreement with that proposed for a hexamer hybrid in solution from NOE data and is inconsistent with the heteronomous model proposed for the fibrous state.  相似文献   

11.
The sugar ring conformations of 2',3'-dideoxyribosyladenine (ddA), 2',3'-dideoxyribosylcytosine (ddC), 2',3'-dideoxyribosylguanine (ddG), 2',3'-dideoxyribosylhypoxanthine (ddI), 3'-azido-2',3'-dideoxyribosylthymine (AZT), 3'-azido-2',3'-dideoxyribosyluracil (AZU) and 3'-fluoro-2',3'-dideoxyribosylthymine (FddT) have been investigated by 1H NMR spectroscopy. While the sugar ring in FddT exists almost totally in C2'-endo geometry, other nucleosides show equilibrium between sugar puckers of C3'-endo family (N-type) and C2'-endo family (S-type). For unsubstituted dideoxynucleosides C3'-endo conformer is favoured (congruent to 75%), whereas for AZT and AZU both the conformers have almost equal populations. Unlike X-ray diffraction studies, the NMR results do not support the suggestion that C3'-exo sugar puckers are desirable for the anti-HIV activity of these nucleosides.  相似文献   

12.
The binding of mithramycin A to the d(A1T2G3C4A5T6) duplex was investigated by 1H NMR and found to be similar to that of its analogue chromomycin A3. In the presence of Mg2+, mithramycin binds strongly to d(ATGCAT)2. On the basis of the two-dimensional NOESY spectrum, the complex formed possesses C2 symmetry at a stoichiometry of two drugs per duplex (2:1) and is in slow chemical exchange on the NMR time scale. NOESY experiments reveal contacts from the E-pyranose of mithramycin to the terminal and nonterminal adenine H2 proton of DNA and from the drug hydroxyl proton to both G3NH2 protons, C4H1' proton, and A5H1' proton. These data place the drug chromophore and E pyranose on the minor groove side of d(ATGCAT)2. NOE contacts from the A-, B-, C-, and D-pyranoses of mithramycin to several deoxyribose protons suggest that the A- and B-rings are oriented along the sugar-phosphate backbone of G3-C4, while the C- and D-rings are located along the sugar-phosphate backbone of A5-T6. These drug-DNA contacts are very similar to those found for chromomycin binding to d(ATGCAT)2. Unlike chromomycin, the NOESY spectrum of mithramycin at the molar ratio of one drug per duplex reveals several chemical exchange cross-peaks corresponding to the drug-free and drug-bound proton resonances. From the intensity of these cross-peaks and the corresponding diagonal peaks, the off-rate constant was estimated to be 0.4 s-1. These data suggest that the exchange rate of mithramycin binding to d(ATGCAT)2 is faster than that of chromomycin.  相似文献   

13.
Dynemicin A, which is a hybrid antitumor antibiotic containing anthraquinone and enediyne cores, abstracts the C-1' hydrogen of DNA deoxyribose and then the damaged DNA leads to strand breaks with the formation of 5'- and 3'-phosphate termini. The lesions of C-4' hydrogen also occur at 3' side of G.C base pairs (i. e., 5'-CT and 5'-GA), leading to 5'-phosphate and 3'-phosphoglycolate termini or 4'-hydroxylated abasic sites. The C-1' hydrogen abstraction by dynemicin A is distinct from the preferential C-5' hydrogen abstraction of calicheamicin and neocarzinostatin.  相似文献   

14.
A high-resolution NMR study of the solution structure of the calcium release agent cADPR has been performed. Pseudorotationals analysis reveals that in solution both sugar rings in cADPR adopt predominantly (approximately 75%) South conformations, with the A and N rings adopting approximately 2T3 (C2'-endo(major)-C3'-exo(minor) and 4(3)T (C3'-exo-C4'-endo) conformations, respectively. The backbone torsion angles beta and gamma have also been determined. While the minor North conformers were not observed in the crystal structure of cADPR, the solution values of the major South conformers compare well to those found in crystal structure.  相似文献   

15.
Solution structure of anti-AIDS drug, 2',3'-dideoxyinosine (ddI) has been assessed by NMR spectroscopy and pseudorotational analysis in conjunction with its analogues: 2',3'-dideoxyadenosine (ddA), 2',3'-dideoxyguanosine (ddG) and 2',3'-dideoxycytidine (ddC). The absence of 3'-hydroxyl groups in these compounds has prompted us to establish the relationship between proton-proton and corresponding endocyclic torsion angles in the 2',3'-dideoxyribofuranose moiety on the basis of five available crystal structures of 2',3'-dideoxynucleosides. A subsequent pseudorotational analysis on ddI (1), ddA (2), ddG (3) and ddC (4) shows that the twist C2'exo-C3'-endo forms of sugar are overwhelmingly preferred (75-80%) over the C2'-endo envelope forms. The phase angles (P) for North and South conformers with the corresponding puckering amplitude (psi m) for ddI (1), ddA (2) and ddG (3) are as follows: PN = 0.1 degrees, PS = 161 degrees and psi m = 34.1 degrees for ddI (1); PN = 1.4 degrees, PS = 160 degrees and psi m = 34.2 degrees for ddA (2) and PN = 2.4 degrees, PS = 163 degrees and psi m = 33.6 degrees for ddG (3). The predominant North conformer of ddC (4) is intermediate between twist C2'-exo-C3'-endo and C3'-endo envelope (P = 10.9 degrees) with a psi m of 34.7 degrees. Note that these preponderant North-sugar structures (approx. 75-80%) found in the solution studies of ddI (1), ddA (2), dG (3) and ddC (4) are not reflected in the X-ray crystal structures of 2',3'-dideoxyadenosine and 2',3'-dideoxycytidine. The constituent sugar residues in both of these crystal structures denosine and 2',3'-dideoxycytidine. The constituent sugar residues in both of these crystal structures are found to be in the South-type geometry (ddA crystalizes in C3'-exo envelope form, while ddC adopts the form intermediate between the C3'-exo envelope and C3'-endo-C4'-exo twist form). This means that X-ray structures of ddA (2) and ddC (4) only represent the minor conformer of the overall pseudorotamer population in solution. An assumption that the structure of the pentofuranose sugar (i.e. P and psi m) participating in conformational equilibrium described by the two-state model remains unchanged at different temperatures has been experimentally validated by assessing five unknown pseudorotational parameters with eight unique observables (3J1'2', 3J1'2", 3J2'3', 3J2'3", 3J2"3', 3J2"3", 3J3'4' and 3J3"4') for 2',3'-dideoxynucleosides.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

16.
C R Cremo  R G Yount 《Biochemistry》1987,26(23):7524-7534
Two new fluorescent nucleotide photoaffinity labels, 3'(2')-O-(4-benzoylbenzoyl)-1,N6-ethenoadenosine 5'-diphosphate (Bz2 epsilon ADP) and 2'-deoxy-3'-O-(4-benzoylbenzoyl)-1,N6-ethenoadenosine 5'-diphosphate [3'(Bz2)2'd epsilon ADP], have been synthesized and used as probes of the ATP binding site of myosin subfragment 1 (SF1). These analogues are stably trapped by the bifunctional thiol cross-linker N,N'-p-phenylenedimaleimide (pPDM) at the active site in a manner similar to that of ATP [Wells, J.A., & Yount, R.G. (1979) Proc. Natl. Acad. Sci. U.S.A. 76, 4966-4970], and nonspecific photolabeling can be minimized by removing free probe by gel filtration prior to irradiation. Both probes covalently photoincorporate with high efficiency (40-50%) into the central 50-kDa heavy chain tryptic peptide, as found previously for the nonfluorescent parent compound 3'(2')-O-(4-benzoylbenzoyl)adenosine diphosphate [Mahmood, R., & Yount, R.G. (1984) J. Biol. Chem. 259, 12956-12959]. The solution conformations of Bz2 epsilon ADP and 3'(Bz2)-2'd epsilon ADP were analyzed by steady-state and time-resolved fluorescence spectroscopy. These data indicated that the benzoylbenzoyl rings in both analogues were stacked over the epsilon-adenine ring. The degree of stacking was greater with the 2' isomer than with the 3' isomer. Fluorescence quantum yields and lifetimes were measured for Bz2 epsilon ADP and 3'(Bz2)2'd epsilon ADP reversibly bound, stably trapped, and covalently photoincorporated at the active site of SF1. These values were compared with those for 3'(2')-O-[[(phenylhydroxymethyl)phenyl]carbonyl]-1,N6-ethenoadenos ine diphosphate (CBH epsilon ADP) and 2'-deoxy-3'-O-[[(phenylhydroxymethyl)phenyl]carbonyl]-1,N6- ethenoadenosine diphosphate [3'(CBH)2'd epsilon ADP]. These derivatives were synthesized as fluorescent analogues of the expected product of the photochemical reactions of Bz2 epsilon ADP and 3'(Bz2)2'd epsilon ADP, respectively, with the active site of SF1. The fluorescence properties of the carboxybenzhydrol derivatives trapped at the active site by pPDM were compared with those of the Bz2 nucleotide-SF1 complexes. These properties were consistent with a photoincorporation mechanism in which the carbonyl of benzophenone was converted to a tertiary alcohol attached covalently to the protein. The specific, highly efficient photoincorporation of Bz2 epsilon ADP at the active site will allow it to be used as a donor in distance measurements by fluorescence resonance energy transfer to acceptor sites on actin.  相似文献   

17.
The conformation of d(A-T-G-G) and d(A-T-G-G)cisPt has been investigated by 1H-NMR at 500 MHz and 90 MHz under various experimental conditions of temperature and concentration. Analysis of the coupling constants between the deoxyribose protons shows that all the sugar rings of d(A-T-G-G) adopt the S(C2'-endo) conformation most of the time. By contrast, in the platinated tetramer, d(A-T-G-G)cisPt, the N(C3'-endo) conformation is highly predominant for the internal dG residue while the S(C2'-endo) conformation is largely favoured for the other residues as in the case of the unplatinated compound. The relaxation time and nuclear Overhauser effect measurements indicate that the orientation of the two guanines of d(A-T-G-G)cisPt is anti in agreement with the previous results obtained for the dimers: r(G-G)cisPt, d(G-G)cisPt. On lowering the temperature from 80 degrees C to 20 degrees C, several proton resonances of d(A-T-G-G)cisPt exhibit large chemical shift and linewidth variations. The most spectacular temperature effect was observed for the internal dG(H1') and dT(H4') protons. All the delta = f(t) curves display a sigmoid form with the same mid-point temperature of 44 +/- 2 degrees C. This mid-point temperature together with the observed chemical shift and linewidth variations were found to be independent of the d(A-T-G-G)cisPt concentration. These results suggest that d(A-T-G-G)cisPt can adopt two different conformations depending on the temperature. The enthalpy for the transition between the high and low temperature conformations is about 84 kJ/mol.  相似文献   

18.
[5'-32P]pdT8d(-)dT7, containing an AP (apurinic/apyrimidinic) site in the ninth position, and [d(-)-1',2'-3H, 5'-32P]DNA, containing AP sites labelled with 3H in the 1' and 2' positions of the base-free deoxyribose [d(-)] and with 32P 5' to this deoxyribose, were used to investigate the yields of the beta-elimination and delta-elimination reactions catalysed by spermine, and also the yield of hydrolysis, by the 3'-phosphatase activity of T4 polynucleotide kinase, of the 3'-phosphate resulting from the beta delta-elimination. Phage-phi X174 RF (replicative form)-I DNA containing AP (apurinic) sites has been repaired in five steps: beta-elimination, delta-elimination, hydrolysis of 3'-phosphate, DNA polymerization and ligation. Spermine, in one experiment, and Escherichia coli formamidopyrimidine: DNA glycosylase, in another experiment, were used to catalyse the first and second steps (beta-elimination and delta-elimination). These repair pathways, involving a delta-elimination step, may be operational not only in E. coli repairing its DNA containing a formamido-pyrimidine lesion, but also in mammalian cells repairing their nuclear DNA containing AP sites.  相似文献   

19.
Carbon-13 and proton NMR spectra of a series of oligodeoxynucleotides (d(CT), d(CC), d(TA), d(AT), d(CG), d(GC), d(AG), d(AAA), d(TATA) and d(GGTAAT] were measured at various temperatures. The three coupling constants that are related to the magnitude of backbone angle epsilon (J(C4'-P), J(C2'-P) and J(H3'-P] are analyzed in terms of a three-state equilibrium about this bond. Two epsilon (trans) angles occur, which differ in magnitude depending on the conformation (N or S) of the adjoining deoxyribose ring. The S-type deoxyribose ring is associated with a smaller epsilon (trans) angle: epsilon (t,S) = 192 degrees. The N-type deoxyribose ring is associated with a larger epsilon (trans) angle epsilon (t,N) = 212 degrees. The third rotamer participating in the conformational equilibrium, is a gauche(-) (epsilon (-] conformer and occurs exclusively in combination with the S-type sugar ring (epsilon (-,S) = 266 degrees). Within the limits of experimental error, the magnitude of these three angles appears to be independent of the particular base sequence, except in the case of d(CG) where a slightly larger epsilon (t,S) angle (197 degrees) is indicated. A simple equation is proposed which may be used to calculate the population of epsilon (t,S) conformer in cases where only J(H3'-P) is known.  相似文献   

20.
High-resolution nuclear magnetic resonance (NMR) and crystallographic data have been taken to refine the force field used in the torsion angle space nucleic acids molecular mechanics program DUPLEX. The population balance deduced from NMR studies of two carcinogen-modified DNA conformers in equilibrium was used to fine tune a sigmoidal, distance-dependent dielectric function so that reasonable relative energies could be obtained. In addition, the base-pair and backbone geometry from high-resolution crystal structures of the Dickerson-Drew dodecamer was used to re-evaluate the deoxyribose pseudorotation profile and the Lennard-Jones nonbonded energy terms. With a modified dielectric function that assumes a very steep distance-dependent form, a deoxyribose pseudorotation profile with reduced energy barriers between C2'- and C3'-endo minima, and a shift of the Lennard-Jones potential energy minimum to a distance approximately 0.4 A greater than the sum of the van der Waals' radii, the sequence-dependent conformational features of the Dickerson-Drew dodecamer in both the solid state and the aqueous liquid crystalline phase are well reproduced. The robust performance of the revised force field, in conjunction with its efficiency through implicit treatment of solvent and counterions, provides a valuable tool for elucidating conformations and structure-function relationships of DNA, including those of molecules modified by carcinogens and other ligands.  相似文献   

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