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1.
[structure: see text]. Polyamides containing N-methylimidazole (Im) and N-methylpyrrole (Py) amino acids are synthetic ligands that have an affinity and specificity for DNA comparable to those of many naturally occurring DNA binding proteins. A machine-assisted Fmoc solid phase synthesis of polyamides has been optimized to afford high stepwise coupling yields (>99%). Two monomer building blocks, Fmoc-Py acid and Fmoc-Im acid, were prepared in multigram scale. Cleavage by aminolysis followed by HPLC purification affords up to 200 mg quantities of polyamide with purities and yields greater than or equal to those reported using Boc chemistry. A broader set of reaction conditions will increase the number and complexity of minor groove binding polyamides which may be prepared and help ensure compatibility with many commercially available peptide synthesizers.  相似文献   

2.
Electrospray ionization mass spectrometry was used to investigate the complex formation between a double-stranded oligonucleotide and various antitumor drugs belonging to two categories: intercalators (ethidium bromide, amsacrine and ascididemin) and minor groove binders (Hoechst 33258, netropsin, distamycin A, berenil and DAPI). The goal of this study was to determine whether the relative intensities in the mass spectra reflect the relative abundances of the species in the solution phase. The full-scan mass spectra suggest non-specific binding for the intercalators and specific binding for the minor groove binders. The preferential stoichiometries adopted by each minor groove binder were determined by studying the influence of the drug concentration on the spectra. We obtained 2:1 > 1:1 for distamycin, 1:1 > 2:1 for Hoechst 33258 and DAPI and only the 1 : 1 complex for netropsin and berenil. These features reflect their known behavior in solution. The compared tandem mass spectra of the 1 : 1 complexes with Hoechst 33258 and netropsin, when correlated with published crystallographic data, suggest the possibility of inferring some structural information. The relative binding affinities of the drug for the considered duplex were deduced with two by two competition experiments, assuming that the relative intensities reflect the composition of the solution phase. The obtained affinity scale is netropsin > distamycin A > DAPI > Hoechst 33258 > berenil. These examples show some of the potential uses of mass spectrometry as a useful tool for the characterization of specific drug binding to DNA, and possibly a rapid drug screening method requiring small amounts of materials.  相似文献   

3.
Sequence specific fluorescence detection of double strand DNA   总被引:2,自引:0,他引:2  
Methods for the fluorescent detection of specific sequences of double strand DNA in homogeneous solution may be useful in the field of human genetics. A series of hairpin polyamides with tetramethyl rhodamine (TMR) attached to an internal pyrrole ring were synthesized, and the fluorescence properties of the polyamide-fluorophore conjugates in the presence and absence of duplex DNA were examined. We observe weak TMR fluorescence in the absence of DNA. Addition of >/=1:1 match DNA affords a significant fluorescence increase over equimolar mismatch DNA for each polyamide-TMR conjugate. Polyamide-fluorophore conjugates offer a new class of sensors for the detection of specific DNA sequences without the need for denaturation. The polyamide-dye fluorescence-based method can be used to screen in parallel the interactions between aromatic ring pairs and the minor groove of DNA even when the binding site contains a non-Watson-Crick DNA base pair. A ranking of the specificity of three polyamide ring pairs-Py/Py, Im/Py, and Im/Im-was established for all 16 possible base pairs of A, T, G, and C in the minor groove. We find that Im/Im is an energetically favorable ring pair for minor groove recognition of the T.G base pair.  相似文献   

4.
Pyrrole–imidazole (PI) polyamides bind to the minor groove of the DNA duplex in a sequence‐specific manner and thus have the potential to regulate gene expression. To date, various types of PI polyamides have been designed as sequence‐specific DNA binding ligands. One of these, cysteine cyclic PI polyamides containing two β‐alanine molecules, were designed to recognize a 7 bp DNA sequence with high binding affinity. In this study, an efficient cyclization reaction between a cysteine and a chloroacetyl residue was used for dimerization in the synthesis of a unit that recognizes symmetrical DNA sequences. To evaluate specific DNA binding properties, dimeric PI polyamide binding was measured by using a surface plasmon resonance (SPR) method. Extending this molecular design, we synthesized a large dimeric PI polyamide that can recognize a 14 bp region in duplex DNA.  相似文献   

5.
Eight-ring cyclic polyamides containing pyrrole (Py), imidazole (Im), and hydroxypyrrole (Hp) aromatic amino acids recognize predetermined six base pair sites in the minor groove of DNA. Two four-ring polyamide subunits linked by (R)-2,4-diaminobutyric acid [(R)H2Ngamma] residue form hairpin polyamide structures with enhanced DNA binding properties. In hairpin polyamides, substitution of Hp/Py for Py/Py pairs enhances selectivity for T. A base pairs but compromises binding affinity for specific sequences. In an effort to enhance the binding properties of polyamides containing Hp/Py pairings, four eight ring cyclic polyamides were synthesized and analyzed on a DNA restriction fragment containing three 6-bp sites 5'-tAGNNCTt-3', where NN = AA, TA, or AT. Quantitative footprint titration experiments demonstrate that contiguous placement of Hp/Py pairs in cyclo-(gamma-ImPyPyPy-(R)H2Ngamma-ImHpHpPy-) (1) provides a 20-fold increase in affinity for the 5'-tAGAACTt-3' site (Ka = 7.5 x 10(7)M(-1)) relative to ImPyPyPy-(R)H2Ngamma-ImHpHpPy-C3-OH (2). A cyclic polyamide of sequence composition cyclo-(gamma-ImHpPyPy-(R)H2Ngamma-ImHpPyPy-) (3) binds a 5'-tAGTACTt-3' site with an equilibrium association constant KA= 3.2 x 10(9)M(-1), representing a fivefold increase relative to the hairpin analogue ImHpPyPy-(R)H2Ngamma-ImHpPyPy-C3-OH (4). Arrangement of Hp/Py pairs in a 3'-stagger regulates specificity of cyclo-(gamma-ImPyHpPy-(R)H2Ngamma-ImPyHpPy-) (5) for the 5'-tAGATCTt-3' site (Ka = 7.5 x 10(7)M(-1)) threefold increase in affinity relative to the hairpin analogue ImPyHpPy-(R)H2Ngamma-ImPyHpPy-C3-OH (6), respectively. This study identifies cyclic polyamides as a viable motif for restoring recognition properties of polyamides containing Hp/Py pairs.  相似文献   

6.
特异性识别DNA的吡咯-咪唑多聚酰胺的研究进展   总被引:1,自引:0,他引:1  
卢丽萍  朱苗力  杨频 《化学进展》2004,16(3):422-430
吡咯-咪唑多聚酰胺为一类人工合成的主要由五元杂环化合物N-甲基吡咯(Py)、N-甲基咪唑(Im)和N-甲基3-羟基吡咯(Hp)芳香氨基酸组成的,经酰胺键连接的人工小分子配体.它们具有与天然DNA结合蛋白相媲美的DNA特异性识别和结合能力.近20年来,对此类化合物的研究取得了重要进展,确定了简单的氨基酸对识别碱基对的规则,研究了多种方式连接的吡咯-咪唑多聚酰胺与DNA小沟结合模式,合成了多种双功能吡咯-咪唑多聚酰胺,且吡咯-咪唑多聚酰胺能穿过细胞膜,具有在体内外调节基因表达的作用。  相似文献   

7.
8.
Hairpin pyrrole-imidazole polyamides are synthetic ligands that bind in the minor groove of DNA with affinities and specificities comparable to those of DNA binding proteins. Three polyamide-camptothecin conjugates 1-3 with linkers varying in length between 7, 13, and 18 atoms were synthesized to trap the enzyme Topoisomerase I and induce cleavage at predetermined DNA sites. One of these, polyamide-camptothecin conjugate 3 at nanomolar concentration (50 nM) in the presence of Topo I (37 degrees C), induces DNA cleavage between three and four base pairs from the polyamide binding site in high yield (77%).  相似文献   

9.
Crescent‐shaped polyamides composed of aromatic amino acids, i.e., 1‐methyl‐1H‐imidazole Im , 1‐methyl‐1H‐pyrrole Py , and 3‐hydroxy‐1H‐pyrrole Hp , bind in the minor groove of DNA as 2 : 1 and 1 : 1 ligand/DNA complexes. DNA‐Sequence specificity can be attributed to shape‐selective recognition and the unique corners or pairs of corners presented by each heterocycle(s) to the edges of the base pairs on the floor of the minor groove. Here we examine the relationship between heterocycle structure and DNA‐sequence specificity for a family of five‐membered aromatic amino acids. By means of quantitative DNase‐I footprinting, the recognition behavior of polyamides containing eight different aromatic amino acids, i.e., 1‐methyl‐1H‐pyrazole Pz , 1H‐pyrrole Nh , 5‐methylthiazole Nt , 4‐methylthiazole Th , 3‐methylthiophene Tn , thiophene Tp , 3‐hydroxythiophene Ht , and furan Fr , were compared with the polyamides containing the parent‐ring amino acids Py, Im , and Hp for their ability to discriminate between the four Watson? Crick base pairs in the DNA minor groove. Analysis of the data and molecular modeling showed that the geometry inherent to each heterocycle plays a significant role in the ability of polyamides to differentiate between DNA sequences. Binding appears sensitive to changes in curvature complementarity between the polyamide and DNA. The Tn / Py pair affords a modest 3‐fold discrimination of T?A vs. A?T and suggests that an S‐atom in the thiophene ring prefers to lie opposite T not A.  相似文献   

10.
Pyrrole (Py)-imidazole (Im)-containing polyamides bind in the minor groove of DNA and can recognize specific sequences through a stacked antiparallel dimer. It has been proposed that there are two different low energy ways to form the stacked dimer and that these are sensitive to the presence of a terminal formamido group: (i) a fully overlapped stacking mode in which the N-terminal heterocycles of the dimer stack on the amide groups between the two heterocycles at the C-terminal and (ii) a staggered stacking mode in which the N-terminal heterocycles are shifted by approximately one unit in the C-terminal direction (Structure 1997, 5, 1033-1046). Two different DNA sequences will be recognized by the same polyamide stacked in these two different modes. Despite the importance of polyamides as sequence specific DNA recognition agents, these stacking possibilities have not been systematically explored. As part of a program to develop agents that can recognize mismatched base pairs in DNA, a set of four polyamide trimers with and without terminal formamido groups was synthesized, and their interactions with predicted DNA recognition sequences in the two different stacking modes were evaluated. Experimental difficulties in monitoring DNA complex formation with polyamides were overcome by using surface plasmon resonance (SPR) detection of the binding to immobilized DNA hairpin duplexes. Both equilibrium and kinetic results from SPR show that a terminal formamido group has a pronounced effect on the affinity, sequence specificity, and rates of DNA-dimer complex formation. The formamido polyamides bind preferentially in the staggered stacking mode, while the unsubstituted analogues bind in the overlapped mode. Affinities for cognate DNA sequences increase by a factor of around 100 when a terminal formamido is added to a polyamide, and the preferred sequences recognized are also different. Both the association and the dissociation rates are slower for the formamido derivatives, but the effect is larger for the dissociation kinetics. The formamido group thus strongly affects the interaction of polyamides with DNA and changes the preferred DNA sequences that are recognized by a specific polyamide stacked dimer.  相似文献   

11.
Two nitrated analogs of distamycin were synthesized by a novel haloform reaction and the DCC/HOBT coupling reaction in a convenient and effective way with out amino group protection. Our results have demonstrated that these polyamides show DNA cleaving activity under long UV (LUV 365 nm) irradiation. Furthermore, it is an unexpected discovery that these analogs can prevent DNA dam age under short UV (SUV 302 nm).  相似文献   

12.
The binding of molecules to specific DNA sequences is important for imaging genome DNA and for studying gene expression. Increasing the number of base pairs targeted by these molecules would provide greater specificity. N-Methylpyrrole–N-methylimidazole (Py–Im) polyamides are one type of such molecules and can bind to the minor groove of DNA in a sequence-specific manner without causing denaturation of DNA. Our recent work has demonstrated that tandem hairpin Py–Im polyamides conjugated with a fluorescent dye can be synthesized easily and can serve as new probes for studying human telomeres under mild conditions. Herein, to improve their selectivities to telomeres by targeting longer sequences, we designed and synthesized a fluorescent tandem trimer Py–Im polyamide probe, comprising three hairpins and two connecting regions (hinges). The new motif bound to 18 bp dsDNA in human telomeric repeats (TTAGGG)n, the longest sequence for specific binding reported for Py–Im polyamides. We compared the binding affinities and the abilities to discriminate mismatch, the UV-visible absorption and fluorescence spectra, and telomere staining in human cells between the tandem trimer and a previously developed tandem hairpin. We found that the tandem trimer Py–Im polyamide probe has higher ability to recognize telomeric repeats and stains telomeres in chemically fixed cells with lower background signal.  相似文献   

13.
Conjugates 12S and 12R of N-methylpyrrole (Py)-N-methylimidazole (Im) seven-ringed hairpin polyamide with both enantiomers of 1,2,9,9a-tetrahydrocyclopropa[1,2-c]benz[1,2-e]indol-4-one (CBI) were synthesized, and their DNA alkylating activity was examined. High-resolution denaturing gel electrophoresis revealed that 12S selectively and efficiently alkylated at one match sequence, 5'-TGACCA-3', in 450-bp DNA fragments. The selectivity and efficiency of the DNA alkylation by 12S were higher than those of the corresponding cyclopropapyrroloindole (CPI) conjugate, 11. In sharp contrast, another enantiomer, 12R, showed very weak DNA alkylating activity. Product analysis of the synthetic decanucleotide confirmed that the alkylating activity of 12S was comparable with 11 and that 12S had a significantly higher reactivity than 12R. The enantioselective reactivity of 12S and 12R is assumed to be due to the location of the alkylating cyclopropane ring of the CBI unit in the minor groove of the DNA duplex. Since the CBI unit can be synthesized from commercially available 1,3-naphthalenediol, the present results open up the possibility of large-scale synthesis of alkylating Py-Im polyamides for facilitating their use in future animal studies.  相似文献   

14.
The characterization of a new class of pyrrole-imidazole hairpin polyamides with beta-amino-gamma-turn units for recognition of the DNA minor groove is reported. A library of eight hairpins containing ( R)- and ( S)-3,4-diaminobutyric acid (beta-amino-gamma-turn) has been synthesized, and the impact of the molecules on DNA-duplex stabilization was studied for comparison with the parent gamma-aminobutyric acid (gamma-turn) and standard ( R)-2,4-diaminobutyric acid (alpha-amino-gamma-turn)-linked eight-ring polyamides. For some, but not all, sequence compositions, melting temperature analyses have revealed that both enantiomeric forms of the beta-amino-gamma-turn increase the DNA-binding affinity of polyamides relative to the ( R)-alpha-amino-gamma-turn. The ( R)-beta-amine residue may be an attractive alternative for constructing hairpin polyamide conjugates. Biological assays have shown that ( R)-beta-amino-gamma-turn hairpins are able to inhibit androgen receptor-mediated gene expression in cell culture similar to hairpins bearing the standard ( R)-alpha-amino-gamma-turn, from which we infer they are cell-permeable.  相似文献   

15.
A-tracts are sequences of repeated adenine bases that, under the proper conditions, are capable of mediating DNA curvature. A-tracts occur naturally in the regulatory regions of many organisms, yet their biological functions are not fully understood. Orienting multiple A-tracts together constructively or destructively in a phase has the potential to create different shapes in the DNA helix axis. One means of detecting these molecular shape differences is from altered DNA mobilities measured using electrophoresis. The small molecule netropsin binds the minor groove of DNA, particularly at AT-rich sequences including A-tracts. Here, we systematically test the hypothesis that netropsin binding eliminates the curvature of A-tracts by measuring the electrophoretic mobilities of seven 98-base pair DNA samples containing different numbers and arrangements of centrally located A-tracts under varying conditions with netropsin. We find that netropsin binding eliminates the mobility difference between the DNA fragments with different A-tract arrangements in a concentration-dependent manner. This work provides evidence for the straightening of A-tracts upon netropsin binding and illustrates an artificial approach to re-sculpt DNA shape.  相似文献   

16.
Recently, the chemical structures of a series of monoimidazole/polyamine conjugates were studied in this laboratory using electrospray ionization mass spectrometry (ESI-MS) combined with tandem mass spectrometry (ESI-MS/MS). The method was found to be a powerful tool for the identification of this class of compounds. During the synthesis of targeted polyamide/peptide conjugates as derivatives or analogues of netropsin and distamycin, the method was applied to analyze and track the coupling reaction for the formation of the polyamide, which was difficult to achieve using thin layer chromatography (TLC). Characteristic fragmentation pathways for a nitro-monoimidazole conjugate, an amino-monoimidazole conjugate, and the final product (a nitro-diimidazole conjugate) were explored. The fragmentations of these conjugates were strongly affected by the presence of an amino group instead of a nitro group in the molecule, and led to the identification of the three compounds in the reacting solution or in the final reaction mixture. Consequently, the reaction could be monitored successfully and the synthetic route optimized.  相似文献   

17.
The potassium t‐butoxide‐catalyzed ring‐opening polymerization of 3,3‐dimethyl‐ and 4,4‐dimethyl‐2‐azetidinone proceeds quantitatively in a mixture of N,N‐dimethylacetamide and 5–10 wt % of lithium chloride at 25°C to give the corresponding monodisperse polyamides. The addition of methyl α‐D ‐glucoside into the living polyamide system gives a novel polyamide linked with the glucose moiety at one chain end. A new graft copolymer composed of a water soluble polysaccharide (dextran) backbone and many monodisperse polyamide branches was also prepared by a similar coupling method. The difference in acidity among the lactam monomers, the corresponding polyamides, and the alcohols was essential for the attainment of such a proton transfer‐controlled system composed of the living polymerization and the subsequent coupling reaction. © 1999 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 37: 909–915, 1999  相似文献   

18.
Puckett JW  Green JT  Dervan PB 《Organic letters》2012,14(11):2774-2777
Microwave synthesis was utilized to rapidly build Py-Im polyamides in high yields and purity using Boc-protection chemistry on Kaiser oxime resin. A representative polyamide targeting the 5'-WGWWCW-3' (W = A or T) subset of the consensus Androgen and Glucocorticoid Response Elements was synthesized in 56% yield after 20 linear steps and HPLC purification. It was confirmed by Mosher amide derivatization of the polyamide that a chiral α-amino acid does not racemize after several additional coupling steps.  相似文献   

19.
A convenient method for the synthesis of polyamides containing N-methylpyrrole (Py) and N-methylimidazole (Im) in solution has been developed. Most of the building blocks have been prepared by a haloform reaction in a simple way that column chromatography can be avoided. By use of the DCC/HOBT coupling reaction, the building blocks prepared have been effectively connected to construct a variety of subchains and polyamides without employing amino protection and deprotection. By use of the present method, an eight-ring polyamide, PyPyPyPygammaPyImImPybetaDp (gamma is gamma-aminobutyric acid, beta is beta-alanine, Dp is N, N-dimethylpropyldiamine), has been synthesized by the coupling of two four-ring subchains in one step.  相似文献   

20.
The four Watson-Crick base pairs of DNA can be distinguished in the minor groove by pairing side-by-side three five-membered aromatic carboxamides, imidazole (Im), pyrrole (Py), and hydroxypyrrole (Hp), four different ways. On the basis of the paradigm of unsymmetrical paired edges of aromatic rings for minor groove recognition, a second generation set of heterocycle pairs, imidazopyridine/pyrrole (Ip/Py) and hydroxybenzimidazole/pyrrole (Hz/Py), revealed that recognition elements not based on analogues of distamycin could be realized. A new set of end-cap heterocycle dimers, oxazole-hydroxybenzimidazole (No-Hz) and chlorothiophene-hydroxybenzimidazole (Ct-Hz), paired with Py-Py are shown to bind contiguous base pairs of DNA in the minor groove, specifically 5'-GT-3' and 5'-TT-3', with high affinity and selectivity. Utilizing this technology, we have developed a new class of oligomers for sequence-specific DNA minor groove recognition no longer based on the N-methyl pyrrole carboxamides of distamycin.  相似文献   

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