共查询到20条相似文献,搜索用时 15 毫秒
1.
Peroxidase‐mimicking DNAzyme has a potential to self‐assemble into a G‐quadruplex and shows peroxidase activity. In comparison to proteins, peroxidase‐mimicking DNAzyme is less expensive and more stable. Herein, it is used in fabricating non‐labeling biosensors. This paper investigates the structural and functional properties of a DNA biosensor based on split DNAzyme with a detection limit in nM range (9.48 nM). Two halves of DNAzyme were linked by a complementary sequence of DNA target. Hybridization of the DNA target pulled two DNAzyme halves apart and peroxidase activity decreased. This study can be divided into 3 stages. First, the characteristics of DNAzyme were studied by Circular Dichroism technique and UV–Vis spectroscopy to find out DNAzyme's optimum activity. It is worth to note that some divalent cations were used to form G‐quadruplex, in addition to common monovalent cations. Furthermore, the hemin incubation was also optimized. Secondly, the structural and functional properties of two types of split DNAzyme were compared with DNAzyme. Thirdly, the hybridization of DNA target was monitored. The results revealed that peroxidase activities of split types decreased by half without any specific conformational changes. Interestingly, the catalytic activities of split DNAzymes could be promoted by adding Mg2+. Besides, it was demonstrated that the structure, peroxidation reaction, and DNA target hybridization of 2:2 and 3:1 split modes were almost alike. It was also illustrated that magnesium promoted the possibility of hybridization. 相似文献
2.
Herein, a novel enzyme‐free and label‐free strategy for colorimetric assay of uracil DNA glycosylase (UDG) activity, which relies on a target‐activated toehold‐mediated strand displacement (TMSD) circuit is described. The strategy employs a detection duplex probe composed of a uracil‐containing strand (US) and a catalyst strand (CS). UDG present in a sample will cleave uracil bases within US and destabilize the detection duplex probe, which then leads to the dissociation of the detection duplex, releasing CS. The free CS promotes the TMSD reaction, consequently liberating a G‐quadruplex DNAzyme strand (GS) which is initially caged by a blocker strand (BS). Notably, a fuel strand (FS) is supplemented to recycle the CS to promote another cycle of TMSD reaction. As a consequence, a large number of GSs are activated by UDG activity and a distinct colorimetric signal is produced through the oxidation of ABTS promoted by the peroxidase mimicking activity of the liberated GSs. Based on this design principle, UDG activity down to 0.006 U mL?1 with excellent selectivity is successfully determined. The practical applicability of this assay is also demonstrated by reliably determining UDG activities in human serum. 相似文献
3.
Human telomeric DNA consists of tandem repeats of the sequence 5'-d(TTAGGG)-3'. Guanine-rich DNA, such as that seen at telomeres, forms G-quadruplex secondary structures. Alternative forms of G-quadruplex structures can have differential effects on activities involved in telomere maintenance. With this in mind, we analyzed the effect of sequence and length of human telomeric DNA on G-quadruplex structures by native polyacrylamide gel electrophoresis and circular dichroism. Telomeric oligonucleotides shorter than four, 5'-d(TTAGGG)-3' repeats formed intermolecular G-quadruplexes. However, longer telomeric repeats formed intramolecular structures. Altering the 5'-d(TTAGGG)-3' to 5'-d(TTAGAG)-3' in any one of the repeats of 5'-d(TTAGGG)(4)-3' converted an intramolecular structure to intermolecular G-quadruplexes with varying degrees of parallel or anti-parallel-stranded character, depending on the length of incubation time and DNA sequence. These structures were most abundant in K(+)-containing buffers. Higher-order structures that exhibited ladders on polyacrylamide gels were observed only for oligonucleotides with the first telomeric repeat altered. Altering the sequence of 5'-d(TTAGGG)(8)-3' did not result in the substantial formation of intermolecular structures even when the oligonucleotide lacked four consecutive telomeric repeats. However, many of these intramolecular structures shared common features with intermolecular structures formed by the shorter oligonucleotides. The wide variability in structure formed by human telomeric sequence suggests that telomeric DNA structure can be easily modulated by proteins, oxidative damage, or point mutations resulting in conversion from one form of G-quadruplex to another. 相似文献
4.
5.
鸟苷酸-四联体DNA (G4 DNA)是由富含串联重复鸟苷酸(G)的DNA或RNA序列形成的G4片层,并堆叠而成一类独特的核酸二级结构。G4 DNA结合多种特异性配体可形成具有催化过氧化氢活性的G4 DNA模拟酶(G4 DNAzyme)。由于G4 DNAzyme存在着序列构成简便灵活、适合多样传感平台检测等特点,其在新型生物传感方法研发、医学检测新技术研究等领域中应用前景广阔。本文主要依据G4 DNA结合配体的不同,对近年来新发展出的G4 DNAzyme进行分类与回顾,归纳为含氯化血红素(hemin)的G4-Hemin DNAzyme与非G4-Hemin DNAzyme。前者是目前G4 DNA模拟酶的研究主流——本文主要归纳了G4-Hemin DNAzyme在金属阳离子、生物小分子及生物大分子的检测分析方向上所取得的重要研究进展,并阐述其在生物传感领域的影响和优势;后者中的配体则主要包括金属阳离子N-甲基吗啡啉(4-methylmorpholine, NMM)、硫磺素T(thioflavin T,ThT)及新型金属配体(Cu2+Ce3+)等。... 相似文献
6.
Debipreeta Bhowmik Gaetano Fiorillo Paolo Lombardi G. Suresh Kumar 《Journal of molecular recognition : JMR》2015,28(12):722-730
G‐quadruplex forming sequences are widely distributed in human genome and serve as novel targets for regulating gene expression and chromosomal maintenance. They offer unique targets for anticancer drug development. Here, the interaction of berberine (BC) and two of its analogs bearing substitution at 9 and 13‐position with human telomeric G‐quadruplex DNA sequence has been investigated by biophysical techniques. Both the analogs exhibited several‐fold higher binding affinity than berberine. The Scatchard binding isotherms revealed non‐cooperative binding. 9‐ω‐amino hexyl ether analog (BC1) showed highest affinity (1.8 × 106 M?1) while the affinity of the 13‐phenylpropyl analog (BC2) was 1.09 × 106 M?1. Comparative fluorescence quenching and polarization anisotropy of the emission spectra gave evidence for a stronger stacking interaction of the analogs compared to berberine. The thiazole orange displacement assay has clearly established that the analogs were more effective in displacing the end stacked dye in comparison to berberine. However, the binding of the analogs did not induce any major structural perturbation in the G‐quadruplex structure, but led to higher thermal stability. Energetics of the binding indicated that the association of the analogs was exothermic and predominantly entropy driven phenomenon. Increasing the temperature resulted in weaker binding; the enthalpic contribution increased and the entropic contribution decreased. A small negative heat capacity change with significant enthalpy–entropy compensation established the involvement of multiple weak noncovalent interactions in the binding process. The 9‐ω‐amino hexyl ether analog stabilized the G‐quadruplex structure better than the 13‐phenyl alkyl analog. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
7.
8.
The G-quadruplexes are four-stranded nucleic acid structures with guanine-rich sequences that play important biological roles in, for example, regulating telomerase association and activity. Recent evidence supports the hypothesis that the telomeric G-quadruplex DNA represents a target of novel anticancer drug medication. In this work, we present results of the molecular electrostatic potential (MEP), together with the HOMO and LUMO frontier orbitals, which are physical quantities of concern in the docking of compounds on the G-quadruplex. The calculations are performed in the frame of density functional theory at the B88LYP/6-31G* level of theory. Additional functionals that introduce dispersion effects were also taken into consideration. The MEP potential and electron density of the frontier molecular orbitals of the G-quadruplex exhibit topological deformations due to the coiled conformation of the compound when they are compared with the MEP and corresponding electron density of a DNA duplex with similar nucleic acid composition. The electrostatic active zone of the G-quadruplex is localized on the top part of the quadruplex structure where the MEP acquires the most negative values. Additional computations on a set of three daunomycins, a common anticancer drug for duplex DNA, indicate an electrostatic fastening between the quadruplex and the set of daunomycins. In this regard, the G-quadruplex electrostatic interactions favor the stacking of ligands. Finally, some implications on molecular drug design are briefly discussed. 相似文献
9.
An exceptional property of auto‐folding into a range of intra‐ as well as intermolecular quadruplexes by guanine‐rich oligomers (GROs) of promoters, telomeres and various other genomic locations is still one of the most attractive areas of research at present times. The main reason for this attention is due to their established in vivo existence and biological relevance. Herein, the structural status of a 20‐nt long G‐rich sequence with two G5 stretches (SG20) is investigated using various biophysical and biochemical techniques. Bioinformatics analysis suggested the presence of a 17‐nt stretch of this SG20 sequence in the intronic region of human SYTX (Synaptotagmin 10) gene. The SYTX gene helps in sensing out the Ca2+ ion, causing its intake in the pre‐synaptic neuron. A range of various topologies like bimolecular, tetramolecular and guanine‐wires (nano‐wires) was exhibited by the studied sequence, as a function of cations (Na+/K+) concentration. UV‐thermal denaturation, gel electrophoresis, and circular dichroism (CD) spectroscopy showed correlations and established a cation‐dependent structural switch. The G‐wire formation, in the presence of K+, may further be explored for its possible relevance in nano‐biotechnological applications. 相似文献
10.
Christophe Creze Bruno Rinaldi Richard Haser Philippe Bouvet Patrice Gouet 《Acta Crystallographica. Section D, Structural Biology》2007,63(6):682-688
A parallel 5′‐d(TGGGGT)‐3′ quadruplex was formed in Na+ solution and crystallized using lithium sulfate as the main precipitating agent. The X‐ray structure was determined to 1.5 Å resolution in space group P21 by molecular replacement. The asymmetric unit consists of a characteristic motif of two quadruplexes stacked at their 5′ ends. All nucleotides are clearly defined in the density and could be positioned. A single bound Li+ ion is observed at the surface of the column formed by the two joined molecules. Thus, this small alkali metal ion appears to be unsuitable as a replacement for the Na+ ion in the central channel of G‐quartets, unlike K+ or Tl+ ions. A well conserved constellation of water molecules is observed in the grooves of the dimeric structure. 相似文献
11.
Anne‐Laure Valton Vahideh Hassan‐Zadeh Ingrid Lema Nicole Boggetto Patrizia Alberti Carole Saintomé Jean‐François Riou Marie‐Noëlle Prioleau 《The EMBO journal》2014,33(7):732-746
DNA replication ensures the accurate duplication of the genome at each cell cycle. It begins at specific sites called replication origins. Genome‐wide studies in vertebrates have recently identified a consensus G‐rich motif potentially able to form G‐quadruplexes (G4) in most replication origins. However, there is no experimental evidence to demonstrate that G4 are actually required for replication initiation. We show here, with two model origins, that G4 motifs are required for replication initiation. Two G4 motifs cooperate in one of our model origins. The other contains only one critical G4, and its orientation determines the precise position of the replication start site. Point mutations affecting the stability of this G4 in vitro also impair origin function. Finally, this G4 is not sufficient for origin activity and must cooperate with a 200‐bp cis‐regulatory element. In conclusion, our study strongly supports the predicted essential role of G4 in replication initiation. 相似文献
12.
Here we report a new approach for label-free colorimetric assay of T4 polynucleotide kinase/phosphatase (PNKP) activity based on G-quadruplex/hemin DNAzyme. In the presence of T4 PNKP, the DNA primer with a 3’-phosphate can be dephosphorylated into a 3’-hydroxyl and initiate a primer elongation reaction to open the hairpin probe, and leading to releasing the G-quartets. Under optimal conditions, the proposed method exhibited a considerable performance with a detection limit of 0.01 U/mL. Furthermore, the present assay can be used to study the potential T4 PNKP inhibitor screening, making it promise to be applied in the fields of drug discovery. 相似文献
13.
Lopes J Piazza A Bermejo R Kriegsman B Colosio A Teulade-Fichou MP Foiani M Nicolas A 《The EMBO journal》2011,30(19):4033-4046
G-quadruplexes are four-stranded nucleic acid structures whose biological functions remain poorly understood. In the yeast S. cerevisiae, we report that G-quadruplexes form and, if not properly processed, pose a specific challenge to replication. We show that the G-quadruplex-prone CEB1 tandem array is tolerated when inserted near ARS305 replication origin in wild-type cells but is very frequently destabilized upon treatment with the potent Phen-DC(3) G-quadruplex ligand, or in the absence of the G-quadruplex-unwinding Pif1 helicase, only when the G-rich strand is the template of leading-strand replication. The orientation-dependent instability is associated with the formation of Rad51-Rad52-dependent X-shaped intermediates during replication detected by two-dimensional (2D) gels, and relies on the presence of intact G-quadruplex motifs in CEB1 and on the activity of ARS305. The asymmetrical behaviour of G-quadruplex prone sequences during replication has implications for their evolutionary dynamics within genomes, including the maintenance of G-rich telomeres. 相似文献
14.
Matej Lexa Pavlina Steflova Tomas Martinek Michaela Vorlickova Boris Vyskot Eduard Kejnovsky 《BMC genomics》2014,15(1)
Background
Transposable elements form a significant proportion of eukaryotic genomes. Recently, Lexa et al. (Nucleic Acids Res 42:968-978, 2014) reported that plant long terminal repeat (LTR) retrotransposons often contain potential quadruplex sequences (PQSs) in their LTRs and experimentally confirmed their ability to adopt four-stranded DNA conformations.Results
Here, we searched for PQSs in human retrotransposons and found that PQSs are specifically localized in the 3’-UTR of LINE-1 elements, in LTRs of HERV elements and are strongly accumulated in specific regions of SVA elements. Circular dichroism spectroscopy confirmed that most PQSs had adopted monomolecular or bimolecular guanine quadruplex structures. Evolutionarily young SVA elements contained more PQSs than older elements and their propensity to form quadruplex DNA was higher. Full-length L1 elements contained more PQSs than truncated elements; the highest proportion of PQSs was found inside transpositionally active L1 elements (PA2 and HS families).Conclusions
Conservation of quadruplexes at specific positions of transposable elements implies their importance in their life cycle. The increasing quadruplex presence in evolutionarily young LINE-1 and SVA families makes these elements important contributors toward present genome-wide quadruplex distribution.Electronic supplementary material
The online version of this article (doi:10.1186/1471-2164-15-1032) contains supplementary material, which is available to authorized users. 相似文献15.
Short loop length and high thermal stability determine genomic instability induced by G‐quadruplex‐forming minisatellites 
下载免费PDF全文
下载免费PDF全文 Brahim Heddi Florian Hamon Alexandre Serero Judith Lopes Marie‐Paule Teulade‐Fichou Anh Tuân Phan Alain Nicolas 《The EMBO journal》2015,34(12):1718-1734
G‐quadruplexes (G4) are polymorphic four‐stranded structures formed by certain G‐rich nucleic acids, with various biological roles. However, structural features dictating their formation and/or function in vivo are unknown. In S. cerevisiae, the pathological persistency of G4 within the CEB1 minisatellite induces its rearrangement during leading‐strand replication. We now show that several other G4‐forming sequences remain stable. Extensive mutagenesis of the CEB25 minisatellite motif reveals that only variants with very short (≤ 4 nt) G4 loops preferentially containing pyrimidine bases trigger genomic instability. Parallel biophysical analyses demonstrate that shortening loop length does not change the monomorphic G4 structure of CEB25 variants but drastically increases its thermal stability, in correlation with the in vivo instability. Finally, bioinformatics analyses reveal that the threat for genomic stability posed by G4 bearing short pyrimidine loops is conserved in C. elegans and humans. This work provides a framework explanation for the heterogeneous instability behavior of G4‐forming sequences in vivo, highlights the importance of structure thermal stability, and questions the prevailing assumption that G4 structures with short or longer loops are as likely to form in vivo. 相似文献
16.
《Critical reviews in biochemistry and molecular biology》2013,48(6):478-492
Guanine-rich RNAs and DNAs from chromosomal telomeres and elsewhere that fold into guanine quadruplexes (G-quadruplexes), are found to complex tightly with porphyrins such as N-methylmesoporphyrin IX (NMM) and hemin [Fe(III) heme]. By themselves, these DNAs and RNAs are found to be efficient catalysts for porphyrin metallation. When complexed with hemin, under physiological conditions, these nucleic acids display robust peroxidase (one-electron oxidation), as well as peroxygenase (two-electron oxidation, or oxygen transfer) activity. These surprising catalytic properties, that frequently match the catalytic performance of natural peroxidase and P450 monooxygenase enzymes, have been the subject of significant mechanistic analysis, as well as having found utility in a wide range of biosensing and other applications. This review summarizes recent insights into a surprising yet fundamental property of many RNAs and DNAs, a property with undoubted ramifications for cellular oxidative disease, de novo hemoenzyme design, and our understanding of the evolution of early biocatalytic systems. 相似文献
17.
18.
G-四联体是端粒形成的一种特殊的结构.如果药物能稳定G-四联体结构或促使其形成,则可使端粒酶不能发挥其逆转录酶活性,不仅抑制端粒酶活性而且使端粒不能延伸.而恶性肿瘤需要一定的端粒长度才能维持其生长及增殖,所以通过促成G-四联体结构的药物可以达到抑制恶性肿瘤生长的目的.本文G-四联体结构及其在肿瘤治疗中的应用作一综述. 相似文献
19.
N Teramoto H Ichinari N Kawazoe Y Imanishi Y Ito 《Biotechnology and bioengineering》2001,75(4):463-468
Peroxidase activities of RNAs containing 2'-amino groups, which were selected as aptamers binding to N-methylmesoporphyrin IX, were investigated. Some clones promoted the oxidation reaction of 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) with hydrogen peroxide (H(2)O(2)) in the presence of iron(III)-protoporphyrin (hemin), whereas others did not. Each of them had a different substrate specificity. One of the active clones promoted the oxidation of o-dianisidine and beta-nicotinamide adenine dinucleotide reduced form (NADH) with H(2)O(2) 5 and 15 times faster than hemin only, respectively. On the other hand, one clone that was inactive on oxidation of ABTS exhibited the same level of activity on oxidation of o-dianisidine as that shown by the clone active on ABTS but no activity on NADH. By in vitro selection, we can produce various types of peroxidase-like non-natural RNAs. 相似文献
20.
Faithful replication of chromosomes is essential for maintaining genome stability. Telomeres, the chromosomal termini, pose quite a challenge to replication machinery due to the complexity in their structures and sequences. Efficient and complete replication of chromosomes is critical to prevent aberrant telomeres as well as to avoid unnecessary loss of telomere DNA. Compelling evidence supports the emerging picture of synergistic actions between DNA replication proteins and telomere protective components in telomere synthesis. This review discusses the actions of various replication and telomere-specific binding proteins that ensure accurate telomere replication and their roles in telomere maintenance and protection. 相似文献