首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
Abstract

We synthesized and analyzed DNA hairpin molecules with methylphosphonate linkages of defined stereochemistry in the loop region. Dinucleotide building blocks ApA and TpT (p indicating methylphosphonate linkage with either Rp or Sp configuration) were synthesized, separated into the diastereomers, and incorporated at three positions of the tetraloops 5′-CGCAAAAGCG-3′ and 5′-CGCTTTTGCG-3′. The oligonucleotides were analyzed for their melting behavior. With a Tm of 67.5°C the molecule 5′-CGCAAApAGCG-3′ with a Sp configurated methylphosphonate is distinctly more stable than the Rp configurated one (Tm = 60.5 °C) and the unmodified oligonucleotide (Tm = 64.5 °C). In contrast to double helical DNA where the substitution of a phosphorodiester by a Sp configurated methylphosphonate results in a lower Tm, in DNA hairpin the introduction of Sp and Rp methylphosphonates at specific positions can lead to a stabilization of the structure.  相似文献   

2.
The interactions of oligonucleotide analogs, 12-mers, which contain deoxyribo- or 2'-O-methylribose sugars and methylphosphonate internucleotide linkages with complementary 12-mer DNA and RNA targets and the effect of chirality of the methylphosphonate linkage on oligomer-target interactions was studied. Oligomers containing a single Rp or Sp methylphosphonate linkage (type 1) or oligomers containing a single phosphodiester linkage at the 5'-end followed by 10 contiguous methylphosphonate linkages of random chirality (type 2) were prepared. The deoxyribo- and 2'-O-methylribo- type 1 12-mers formed stable duplexes with both the RNA and DNA as determined by UV melting experiments. The melting temperatures, Tms, of the 2'-O-methylribo-12-mer/RNA duplexes (49-53 degrees C) were higher than those of the deoxyribo-12mer/RNA duplexes (31-36 degrees C). The Tms of the duplexes formed by the Rp isomers of these oligomers were approximately 3-5 degrees C higher than those formed by the corresponding Sp isomers. The deoxyribo type 2 12-mer formed a stable duplex, Tm 34 degrees C, with the DNA target and a much less stable duplex with the RNA target, Tm < 5 degrees C. In contrast, the 2'-O-methylribo type 2 12-mer formed a stable duplex with the RNA target, Tm 20 degrees C, and a duplex of lower stability with the DNA target, Tm < 5 degrees C. These results show that the previously observed greater stability of oligo-2'-O-methylribonucleotide/RNA duplexes versus oligodeoxyribonucleotide/RNA duplexes extends to oligomers containing methylphosphonate linkages and that the configuration of the methylphosphonate linkage strongly influences the stability of the duplexes.  相似文献   

3.
Abstract

ABSTRACT: In order to design an oligodeoxynucleoside phosphorothioate as an antisense molecule, it is important to establish the structure of the S-oligo with a strong affinity to the target RNA. In these molecules, internucleotide thiophosphate linkages produce diastereomers, the number of which increases in proportion to 2n (n: number of thiophosphate). To estimate the effect of this linkage on the duplex stability by UV melting curves, oligodeoxynucleotides having a single thiophosphate (referred to Soligo), dGCNsN'CG (s: thiophosphate, N, N′ = A or T), were prepared and their diastereomers isolated by HPLC. As demonstrated previously, the melting temperatures (Tm) for the Sp isomers were higher than those of the Rp when DNA was a target. On the other hand, it was found that for RNA as a target, the Rp isomers of dGCTsTCG and dGCAsTCG had higher stability than the Sp, and that the difference in the Tm values between the diastereomers was smaller than when DNA was a target. With dGCsTsACG, which has two thiophosphates, it was also found that the Tm values decreased with an increase in the number of thiophosphate linkages, and that the difference in Tm between the diastereomers was smaller when RNA was a target. Consequently, in practical clinical applications where RNA is a target, the influence of thiophosphate chirality on the duplex structure is almost negligible and Rp/Sp separation of an S-oligo may be of no major concern.  相似文献   

4.
Molecular mechanical calculations of the optimal structure and relative stability of duplexes of dA6 with non-ionic oligonucleotide analogs of the methylphosphonate d(TpCH3)6 and phosphotriester d(TpOEt)6 have been carried out. Duplexes of dA6 and non-ionic oligonucleotide analogs with Rp enantiomeric configuration of modified phosphorous groups in d(TpCH3) and Sp in d(TpOEt) turned out to be more stable than those with second enantiomeric configurations Sp and Rp, respectively. The main factors of energetic selectivity between Sp and Rp stereoisomers have been found to be steric strains and electrostatic interaction between asymmetric modified phosphate groups and the d-ribose 5' end. NOE generated distances between protons of alkyl substitute and d-ribose H2", H3' have been analysed. The results of the calculations are in agreement with experimental observations.  相似文献   

5.
Methyl phosphonate oligonucleotides have been used as antisense and antigene agents. Substitution of a methyl group for oxygen in the phosphate ester backbone introduces a new chiral center. Significant differences in physical properties and hybridization abilities are observed between the R(p) and S(p) diastereomers. Chirally pure methylphosphonate deoxyribooligonucleotides were synthesized, and the solution structures of duplexes formed between a single strand heptanucleotide methylphosphonate, d(Cp(Me)Cp(Me)Ap(Me)Ap(Me)Ap(Me)Cp(Me)A), hybridized to a complementary octanucleotide, d(TpGpTpTpTpGpGpC), were studied by NMR spectroscopy. Stereochemistry at the methylphosphonate center for the heptanucleotide was either RpRpRpRpRpRp (R(p) stereoisomer) or RpRpRpSpRpRp (S(p) stereoisomer, although only one of the six methylphosphonate centers has the S(p) stereochemistry). The results show that the methylphosphonate strands in the heteroduplexes exhibit increased dynamics relative to the DNA strand. Substitution of one chiral center from R(p) to S(p) has a profound effect on the hybridization ability of the methylphosphonate strand. Sugars in the phosphodiester strand exhibit C(2)(') endo sugar puckering while the sugars in the methyl phosphonate strand exhibit an intermediate C(4)(') endo puckering. Bases are well stacked on each other throughout the duplex. The hybridization of the methylphosphonate strand does not perturb the structure of the complementary DNA strand in the hetero duplexes. The sugar residue 5' to the S(p) chiral center shows A-form sugar puckering, with a C(3)(')-endo conformation. Minor groove width in the R(p) stereoisomer is considerably wider, particularly at the R(p) vs S(p) site and is attributed to either steric interactions across the minor groove or poorer metal ion coordination within the minor groove.  相似文献   

6.
A Yu  J Dill    M Mitas 《Nucleic acids research》1995,23(20):4055-4057
The structures of single-stranded (ss) oligonucleotides containing (CAG)15 [ss(CAG)15] or (GAC)15 [ss(GAC)15] were examined. At 10 degrees C, the electrophoretic mobilites of the two DNAs were similar to ss(CTG)15, a DNA that forms a hairpin containing base paired and/or stacked thymines. At 37 degrees C in 50 mM NaCl, single-strand-specific P1 nuclease cleaved the G33-G36 phosphodiesters of ss(GAC)15, and the G32-A34, G35-C36 phosphodiesters of ss(CAG)15 (where the loop apex of both DNAs = A34). Electrophoretic mobility melting profiles indicated that the melting temperature (Tm) of ss(CAG)15 in low (approximately 1 mM Na+) ionic strength was 38 degrees C. In contrast, the Tm of ss(GAC)15 was 49 degrees C, a value similar to the Tm of ss(CTG)15. These results provide evidence that ss(GAC)15 and ss(CAG)15 form similar, but distinguishable hairpin structures.  相似文献   

7.
2D-NOE and 1H NMR chemical shift data obtained for the title oligonucleotides were compared with similar data previously reported [Broido et al. (1985) Eur. J. Biochem. 150, 117-128] for the unmodified "parent" structure, [d(GGAATTCC)]2. The spectroscopically detectable structural perturbations caused by replacement of phosphate oxygen with sulfur were mostly localized within the GsA moiety, and were greater for the Rp configuration wherein sulfur is oriented into the major groove of the B-helix. UV-derived Tm measurements gave the following order of stability for the duplexes in 0.4 M NaCl: unmodified (33.9 +/- 0.1 degrees C) approximately Sp-Sp (34.1 degrees C) greater than Rp-Rp (31.7 degrees C). The title compounds were prepared by a new and convenient synthetic route which utilized HPLC to separate the diastereomeric O-ethyl phosphorothioate precursors, (Rp)- and (Sp)-d[GG(S,Et)AATTCC], for subsequent de-ethylation by ammonia in water.  相似文献   

8.
Oligodeoxyribonucleoside methylphosphonates derivatized at the 5' end with 4'-(amino-alkyl)-4,5',8-trimethylpsoralen were prepared. The interaction of these psoralen-derivatized methylphosphonate oligomers with synthetic single-stranded DNAs 35 nucleotides in length was studied. Irradiation of a solution containing the 35-mer and its complementary methylphosphonate oligomer at 365 nm gave a cross-linked duplex produced by cycloaddition between the psoralen pyrone ring of the derivatized methylphosphonate oligomer and a thymine base of the DNA. Photoadduct formation could be reversed by irradiation at 254 nm. The rate and extent of cross-linking were dependent upon the length of the aminoalkyl linker between the trimethylpsoralen group and the 5' end of the methylphosphonate oligomer. Methylphosphonate oligomers derivatized with 4'-[[N-(2-aminoethyl)amino]methyl]- 4,5',8-trimethylpsoralen gave between 70% and 85% cross-linked product when irradiated for 20 min at 4 degrees C. Further irradiation did not increase cross-linking, and preirradiation of the psoralen-derivatized methylphosphonate oligomer at 365 nm reduced or prevented cross-linking. These results suggest that the methylphosphonate oligomers undergo both cross-linking and deactivation reactions when irradiated at 365 nm. The extent of cross-linking increased up to 10 microM oligomer concentration and dramatically decreased at temperatures above the estimated Tm of the methylphosphonate oligomer-DNA duplex. The cross-linking reaction was dependent upon the fidelity of base-pairing interactions between the methylphosphonate oligomers and the single-stranded DNA. Noncomplementary oligomers did not cross-link, and the extent of cross-linking of oligomers containing varying numbers of noncomplementary bases was greatly diminished or eliminated.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

9.
The thermal denaturation of DNA from cell lines extensively substituted with bromodeoxyuridine has been examined spectrophotometrically over a wide range in ionic strength and by thermal elution from hydroxyapatite columns. BrdU substitution stabliizes DNA at all ionic strengths between 7.5 mM and 1350 mM potassium ion concentration, although a plot of log ionic strength vs Tm deviates from linearity above 150 mM. This nonlinearity is most pronounced with BrdU-substituted DNAs, resulting in a lowered delta Tm between unsubstituted and substituted DNA with increasing ionic strength. DMSO is shown to decrease the Tm of both unsubstituted and BrdU-substituted DNA equally, at a rate of .5 degrees C per 1% DMSO.  相似文献   

10.
In this paper we report our preliminary studies on the hydration pattern of selected C-H groups in natural thymidyl(3'-5)thymidine and its Rp and Sp-methylphosphonate analogues using Molecular Dynamic simulations in aqueous solutions. The methyl groups attached to the phosphorus center (P-Me) in methylphosphonate analogues are hydrated by water molecules as efficiently as the hydrophilic P=O group in the natural dithymidine nucleotide and better than the neutral P=O functions in these compounds, although the nature of the hydration is different. The C5-Me centers of the 3'-yl units seem to be better hydrated in the methylphosphonate analogues than in the natural dithymidine phosphate and than other centers of the thymine bases in methylphosphonate analogues. Due to chirality of the phosphorus center, the C5-Me group of the 5'-yl unit in the Sp diastereomer coordinates more water than that in the Rp diastereomer. The C6-H group in the 5'-yl unit of the Sp diastereomer exhibits a specific interaction with water.  相似文献   

11.
Vaccinia topoisomerase IB forms a covalent DNA-(3'-phosphotyrosyl)-enzyme intermediate at its target site 5'-CCCTTp downward arrow in duplex DNA. The contributions of backbone electrostatics and individual phosphate oxygens to the transesterification reaction were probed by introducing 22 single Rp and Sp methylphosphonate diastereomers at 11 positions flanking the cleavage site. Methyl groups at eight positions (four on the scissile strand and four on the nonscissile strand) inhibited the rate of single-turnover cleavage by factors of 50-50,000. Stereospecific interference was observed at several phosphates, thereby distinguishing simple electrostatic contributions from putative specific polar contacts to either the pro-Sp or pro-Rp oxygens. The functionally relevant phosphate oxygens are located on the minor groove face of the helix on which the scissile phosphodiester resides. Our findings, combined with available crystal structures of vaccinia and human topoisomerase IB, show how specific phosphate contacts remote from where chemistry occurs are critical for assembly of the active site.  相似文献   

12.
This study examined the nature of the metal-nucleotide complexes which serve as substrates, products, and intermediates in the beef heart mitochondrial ATPase reaction. The two methods employed involved the use of phosphorothioate ATP analogs as substrates in the presence of Mg2+ or Cd2+ and the use of substitution inert Cr X ATP complexes (the isolated diastereomers of the bidentate complexes) along with the newly synthesized Cr X ITP complexes as inhibitors of both the F1-ATPase and F1-ITPase activities. Little stereoselectivity was observed in the inhibition of F1-ATPase and F1-ITPase activities by the isolated diastereomers of beta,gamma-bidentate CrATP, while the inhibition by the delta,alpha,beta-bidentate CrADP diastereomer was greater than that of the lambda epimer. gamma-Monodentate CrITP was a weak inhibitor of both the ATPase and ITPase activities, whereas beta,gamma-bidentate CrITP failed to show any inhibition at all up to a concentration of 3.2 mM. When adenosine 5'-O-(2-thiotriphosphate) (ATP beta S) was used as the substrate, (VmSp]/(Vm(Rp] with Mg2+ present was 2.7 at 31 degrees C and 3.5 at 13 degrees C. The (Vm/Km(Sp]/(Vm/Km(Rp] ratios with Mg2+ present were 15.3 at 31 degrees C and 73.3 at 13 degrees C. With Cd2+ present, the (Vm(Sp]/(Vm(Rp] ratios were 0.81 and 0.65 at 31 and 13 degrees C, respectively. The (Vm/Km(Sp]/(Vm/Km(Rp] ratios with Cd2+ present were 1.17 at 31 degrees C and 1.34 at 13 degrees C. The large activation energy observed for the isomers of CdATP beta S was not observed for MgATP beta S, MgATP, or CdATP. The Vm for Cd adenosine 5'-O-thiotriphosphate (ATP gamma S) hydrolysis was the largest of all the metal-phosphorothioate nucleotide complexes, while that for MgATP gamma S was the smallest. The results are interpreted in terms of a catalytic model for F1-catalyzed nucleotide hydrolysis describing metal-nucleotide chelation during the reaction.  相似文献   

13.
Methylphosphonate-modified oligo-2'-O-methylribonucleotides 15-20 nucleotides (nt) in length were prepared whose sequences are complementary to the 5' and 3' sides of the upper hairpin of HIV trans-acting response element (TAR) RNA. These anti-TAR oligonucleotides (ODNs) form stable hairpins whose melting temperatures (Tm) range from 55 degrees C to 80 degrees C. Despite their rather high thermal stabilities, the hairpin oligo-2'-O-methylribonucleotides formed very stable complexes with TAR RNA, with dissociation constants in the nanomolar concentration range at 37 degrees C. The affinities of the hairpin oligomers for TAR RNA were influenced by the positions of the methylphosphonate linkages. The binding affinity was reduced approximately 17-fold by the presence of two methylphosphonate linkages in the TAR loop complementary region (TLCR) of the oligomer, whereas methylphosphonate linkages outside this region increased binding affinity approximately 3-fold. The configurations of the methylphosphonate linkages in the TLCR also affected binding affinity, with the RpRp isomer showing significantly higher binding than the SpSp isomer. In addition to serving as probes of the interactions between the oligomer and TAR RNA, the presence of the methylphosphonate linkages in combination with the hairpin structure increases the resistance of these oligomers to degradation by exonucleases found in mammalian serum. The combination of high binding affinity and nuclease resistance of the hairpin ODNs containing methylphosphonate linkages suggests their potential utility as antisense compounds.  相似文献   

14.
Substitution of one non-bridging oxygen in a natural phosphodiester internucleotide linkage with a borano (-BH3) group results in a chiral phosphorus center in boranophosphate. UV thermal melting profiles were recorded for DNA duplexes formed between a DNA 9-mer with either an Sp or a Rp boranophosphate linkage in the middle and the complementary DNA 9-mer, as well as for their unmodified parent duplex. The thermal stability of the DNA duplexes was in the order of normal > Sp borano > Rp borano. CD spectra of all three duplexes exhibited typical B-DNA profile, which closely resembled each other.  相似文献   

15.
LNA guanine and 2,6-diaminopurine (D) phosphoramidites have been synthesized as building blocks for antisense oligonucleotides (ON). The effects of incorporating LNA D into ON were investigated. As expected, LNA D containing ON showed increased affinity towards complementary DNA (Delta Tm +1.6 to +3.0 degrees C) and RNA (Delta Tm +2.6 to +4.6 degrees C) ON. To evaluate if LNA D containing ON have an enhanced mismatch sensitivity compared to their complementary LNA A containing ON thermal denaturation experiments towards singly mismatched DNA and RNA ON were undertaken. Replacing one LNA A residue with LNA D, in fully LNA modified ON, resulted in higher mismatch sensitivity towards DNA ON (Delta Delta Tm -4 to >-17 degrees C). The same trend was observed towards singly mismatched RNA ON (Delta Delta Tm D-a = -8.7 degrees C and D-g = -4.5 degrees C) however, the effect was less clearcut and LNA A showed a better mismatch sensitivity than LNA D towards cytosine (Delta Tm +5.5 degrees C).  相似文献   

16.
Synthetic duplex DNAs of repeating sequence, such as poly d(TTC).poly d(GAA), were separated into their individual single strands. The various single strands complexed not only, as expected, with their complementary strands, but also with other non-complementary strands. Characterization of such complexes with respect to stoichiometry, Tm values and the dependence of Tm on NaCl concentration showed that a variety of unusual structures could be inferred at physiological salt concentrations. These included extrahelical thymines, G.T oppositions, A.C oppositions and T.C oppositions.  相似文献   

17.
Diastereomers of oligonucleotide ethyl phosphotriesters were separated by high-performance complementary (affinity) chromatography on a column with the immobilized complementary oligonucleotide. The elution buffer contained 0.18 M K2HPO4, pH 7.5, and 30% acetonitrile. The temperature of the separation was a few degrees lower than Tm of corresponding oligonucleotide complexes. The diastereomers separated completely or partially were: d[GCC(Et)AAACA], d[GCCA(Et)AACA], d[GCAA(Et)ACA], d[GCC(Et)A(Et)AACA], d[GCC(Et)AA(Et)ACA], d[GCCA(Et)A(Et)ACA], d[GCC(Et)A(Et)A(Et)ACA].  相似文献   

18.
Mitochondrial DNA from Yoshida A.H. 130 cells, has been characterized by determination of the buoyant density by CsCl equilibrium density gradient centrifugation and the thermal denaturation and renaturation behaviour. These studies have been carried out parallelly on nuclear DNA from the same cells in order to search for possible differences between both DNAs. Mitochondrial DNA of Yoshida cells presents an equilbrium in CsCl of 1.7154 g/cm3 and a sharp melting with a Tm of 92 degrees C. Nuclear DNA presents an equilibrium of 1.7030 g/cm3 and a Tm of 88 degrees C. The guanine plus cytosine content in both DNAs has been calculated from tumour results and compared with the content in normal rat liver cells M-DNA of tumour cells presents a higher guanine plus cytosine content than N-DNA, whereas in normal liver cells is higher in N-DNA. N-DNAs of both normal and tumour cells have the same guanine plus cytosine content, whereas M-DNA from tumour cells presents a significant increase (about 35%) with regard to this from normal liver cells.  相似文献   

19.
R Cosstick  F Eckstein 《Biochemistry》1985,24(14):3630-3638
The synthesis of four oligonucleotides containing alternating phosphorothioate groups, (Rp)-and (Sp)-d[G(p(S)CpG)3p(S)C] and (Rp)- and (Sp)-d[C(p(S)GpC)p(S)G], by the phosphite approach is described. Silica gel to which 2'(3')-O-acetyluridine and 5'-succinyl groups were bound served as support for oligomer synthesis. The syntheses were carried out by dimer addition with presynthesized diastereomerically pure dinucleoside phosphorothioates as building blocks. The products were characterized by 31P NMR, nuclease P1 digestion, and oxidation to the corresponding all-phosphate-containing oligomers. The ability of each oligomer to adopt the Z conformation under high-salt conditions was screened for by circular dichroism spectroscopy. Both (Rp)-d[G(p(S)CpG)3p(S)C] and (Sp)-d[C(p(S)GpC)3p(S)G] are capable of forming Z-type structures at high NaCl concentrations. In the case of (Rp)-d[G(p(S)CpG)3p(S)C] where a phosphorothioate of the Rp configuration occurs 5' to a deoxycytidine residue, the B----Z transition is potentiated in comparison to the unmodified oligomer. (Sp)-d[G(p(S)CpG)3p(S)C] and (Rp)-d[C(p(S)GpC)3p(S)G] retain the B conformation even at high NaCl concentration.  相似文献   

20.
Although most duplex DNAs are not immunogenic some synthetic DNAs such as poly[d(Tm5C)].poly[d(GA)] are weakly immunogenic allowing the production of monoclonal antibodies. The specificity of one of these antibodies, Jel 172, was investigated in detail by a competitive solid-phase radioimmune assay. Jel 172 bound well to poly[d(TC)].poly[d(GA)] but not to other duplex DNAs such as poly[d(TTC)].poly[d(GAA)] and poly[d(TCC)].poly[d(GGA)]. The binding to poly[d(Br5UC)].poly[d(GA)] was enhanced while that to poly[d(TC)].poly[d(IA)] was decreased compared to poly[d(TC)].poly[D(GA)]. Thus, not only is the antibody very specific for a sequence of duplex DNA but it also appears to recognize functional groups in both grooves of the helix.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号