共查询到20条相似文献,搜索用时 15 毫秒
1.
Dipl.‐Chem. Mario Jauker Dipl.‐Chem. Helmut Griesser Prof. Clemens Richert 《Angewandte Chemie (International ed. in English)》2015,54(48):14559-14563
Template‐directed incorporation of nucleotides at the terminus of a growing complementary strand is the basis of replication. For RNA, this process can occur in the absence of enzymes, if the ribonucleotides are first converted to an active species with a leaving group. Thus far, the activation required a separate chemical step, complicating prebiotically plausible scenarios. Here we show that a combination of a carbodiimide and an organocatalyst induces near‐quantitative incorporation of any of the four ribonucleotides. Upon in situ activation, adenosine monophosphate was found to also form oligomers in aqueous solution. So, both de novo strand formation and sequence‐specific copying can occur without an artificial synthetic step. 相似文献
2.
G‐quadruplex (G4) structures are of general importance in chemistry and biology, such as in biosensing, gene regulation, and cancers. Although a large repertoire of G4‐binding tools has been developed, no aptamer has been developed to interact with G4. Moreover, the G4 selectivity of current toolkits is very limited. Herein, we report the first l ‐RNA aptamer that targets a d ‐RNA G‐quadruplex (rG4). Using TERRA rG4 as an example, our results reveal that this l ‐RNA aptamer, Ap3‐7, folds into a unique secondary structure, exhibits high G4 selectivity and effectively interferes with TERRA‐rG4–RHAU53 binding. Our approach and findings open a new door in further developing G4‐specific tools for diverse applications. 相似文献
3.
Yan Xu Dr. Yuta Suzuki Makoto Komiyama Prof. 《Angewandte Chemie (International ed. in English)》2009,48(18):3281-3284
A trap that closes with a “click” : The copper‐catalyzed azide–alkyne cycloaddition can occur in different G‐quadruplex structures (see scheme). The species trapped by the click reaction can then be separated and analyzed. By using this approach, a DNA–RNA hybrid‐type G‐quadruplex structure formed by human telomeric DNA and RNA sequences was detected.
4.
Dr. Rafael del Villar‐Guerra Prof. Dr. John O. Trent Prof. Dr. Jonathan B. Chaires 《Angewandte Chemie (International ed. in English)》2018,57(24):7171-7175
A curated library of circular dichroism spectra of 23 G‐quadruplexes of known structure was built and analyzed. The goal of this study was to use this reference library to develop an algorithm to derive quantitative estimates of the secondary structure content of quadruplexes from their experimental CD spectra. Principal component analysis and singular value decomposition were used to characterize the reference spectral library. CD spectra were successfully fit to obtain estimates of the amounts of base steps in anti–anti, syn–anti or anti–syn conformations, in diagonal or lateral loops, or in other conformations. The results show that CD spectra of nucleic acids can be analyzed to obtain quantitative structural information about secondary structure content in an analogous way to methods used to analyze protein CD spectra. 相似文献
5.
Orienting Tetramolecular G‐Quadruplex Formation: The Quest for the Elusive RNA Antiparallel Quadruplex 下载免费PDF全文
Oscar Mendoza Massimiliano Porrini Gilmar F. Salgado Valérie Gabelica Jean‐Louis Mergny 《Chemistry (Weinheim an der Bergstrasse, Germany)》2015,21(18):6732-6739
DNA and RNA G‐quadruplexes (G4) are unusual nucleic acid structures involved in a number of key biological processes. RNA G‐quadruplexes are less studied although recent evidence demonstrates that they are biologically relevant. Compared to DNA quadruplexes, RNA G4 are generally more stable and less polymorphic. Duplexes and quadruplexes may be combined to obtain pure tetrameric species. Here, we investigated whether classical antiparallel duplexes can drive the formation of antiparallel tetramolecular quadruplexes. This concept was first successfully applied to DNA G4. In contrast, RNA G4 were found to be much more unwilling to adopt the forced antiparallel orientation, highlighting that the reason RNA adopts a different structure must not be sought in the loops but in the G‐stem structure itself. RNA antiparallel G4 formation is likely to be restricted to a very small set of peculiar sequences, in which other structural features overcome the formidable intrinsic barrier preventing its formation. 相似文献
6.
Sugar–Edge Interactions in a DNA–RNA G‐Quadruplex: Evidence of Sequential C−H⋅⋅⋅O Hydrogen Bonds Contributing to RNA Quadruplex Folding 下载免费PDF全文
Jonathan Dickerhoff Dr. Bettina Appel Prof. Dr. Sabine Müller Prof. Dr. Klaus Weisz 《Angewandte Chemie (International ed. in English)》2016,55(48):15162-15165
DNA G‐quadruplexes were systematically modified by single riboguanosine (rG) substitutions at anti‐dG positions. Circular dichroism and NMR experiments confirmed the conservation of the native quadruplex topology for most of the DNA–RNA hybrid structures. Changes in the C8 NMR chemical shift of guanosines following rG substitution at their 3′‐side within the quadruplex core strongly suggest the presence of C8?H???O hydrogen‐bonding interactions with the O2′ position of the C2′‐endo ribonucleotide. A geometric analysis of reported high‐resolution structures indicates that such interactions are a more general feature in RNA quadruplexes and may contribute to the observed preference for parallel topologies. 相似文献
7.
Julie Thevarpadam Irene Bessi Oliver Binas Dr. Diana P. N. Gonçalves Dr. Chavdar Slavov Dr. Hendrik R. A. Jonker Dr. Christian Richter Prof. Dr. Josef Wachtveitl Prof. Dr. Harald Schwalbe Prof. Dr. Alexander Heckel 《Angewandte Chemie (International ed. in English)》2016,55(8):2738-2742
The ability of three different bifunctional azobenzene linkers to enable the photoreversible formation of a defined intermolecular two‐tetrad G‐quadruplex upon UV/Vis irradiation was investigated. Circular dichroism and NMR spectroscopic data showed the formation of G‐quadruplexes with K+ ions at room temperature in all three cases with the corresponding azobenzene linker in an E conformation. However, only the para–para‐substituted azobenzene derivative enables photoswitching between a nonpolymorphic, stacked, tetramolecular G‐quadruplex and an unstructured state after E–Z isomerization. 相似文献
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Molecular Recognition of the Hybrid‐2 Human Telomeric G‐Quadruplex by Epiberberine: Insights into Conversion of Telomeric G‐Quadruplex Structures 下载免费PDF全文
Dr. Clement Lin Guanhui Wu Dr. Kaibo Wang Dr. Buket Onel Dr. Saburo Sakai Prof. Yong Shao Prof. Danzhou Yang 《Angewandte Chemie (International ed. in English)》2018,57(34):10888-10893
Human telomeres can form DNA G‐quadruplex (G4), an attractive target for anticancer drugs. Human telomeric G4s bear inherent structure polymorphism, challenging for understanding specific recognition by ligands or proteins. Protoberberines are medicinal natural‐products known to stabilize telomeric G4s and inhibit telomerase. Here we report epiberberine (EPI) specifically recognizes the hybrid‐2 telomeric G4 predominant in physiologically relevant K+ solution and converts other telomeric G4 forms to hybrid‐2, the first such example reported. Our NMR structure in K+ solution shows EPI binding induces extensive rearrangement of the previously disordered 5′‐flanking and loop segments to form an unprecedented four‐layer binding pocket specific to the hybrid‐2 telomeric G4; EPI recruits the (?1) adenine to form a “quasi‐triad” intercalated between the external tetrad and a T:T:A triad, capped by a T:T base pair. Our study provides structural basis for small‐molecule drug design targeting the human telomeric G4. 相似文献
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Tunable Crystallinity and Charge Transfer in Two‐Dimensional G‐Quadruplex Organic Frameworks 下载免费PDF全文
Prof. Yi‐Lin Wu Dr. N. Scott Bobbitt Jenna L. Logsdon Natalia E. Powers‐Riggs Jordan N. Nelson Xiaolong Liu Timothy C. Wang Prof. Randall Q. Snurr Prof. Joseph T. Hupp Prof. Omar K. Farha Prof. Mark C. Hersam Prof. Michael R. Wasielewski 《Angewandte Chemie (International ed. in English)》2018,57(15):3985-3989
DNA G‐quadruplex structures were recently discovered to provide reliable scaffolding for two‐dimensional organic frameworks due to the strong hydrogen‐bonding ability of guanine. Herein, 2,7‐diaryl pyrene building blocks with high HOMO energies and large optical gaps are incorporated into G‐quadruplex organic frameworks. The adjustable substitution on the aryl groups provides an opportunity to elucidate the framework formation mechanism; molecular non‐planarity is found to be beneficial for restricting interlayer slippage, and the framework crystallinity is highest when intermolecular interaction and non‐planarity strike a fine balance. When guanine‐functionalized pyrenes are co‐crystallized with naphthalene diimide, charge‐transfer (CT) complexes are obtained. The photophysical properties of the pyrene‐only and CT frameworks are characterized by UV/Vis and steady‐state and time‐resolved photoluminescence spectroscopies, and by EPR spectroscopy for the CT complex frameworks. 相似文献
12.
Lijun Zhou Derek K. O'Flaherty Jack W. Szostak 《Angewandte Chemie (International ed. in English)》2020,59(36):15682-15687
The non‐enzymatic replication of the primordial genetic material is thought to have enabled the evolution of early forms of RNA‐based life. However, the replication of oligonucleotides long enough to encode catalytic functions is problematic due to the low efficiency of template copying with mononucleotides. We show that template‐directed ligation can assemble long RNAs from shorter oligonucleotides, which would be easier to replicate. The rate of ligation can be greatly enhanced by employing a 3′‐amino group at the 3′‐end of each oligonucleotide, in combination with an N‐alkyl imidazole organocatalyst. These modifications enable the copying of RNA templates by the multistep ligation of tetranucleotide building blocks, as well as the assembly of long oligonucleotides using short splint oligonucleotides. We also demonstrate the formation of long oligonucleotides inside model prebiotic vesicles, which suggests a potential route to the assembly of artificial cells capable of evolution. 相似文献
13.
Formation of DNA:RNA Hybrid G‐Quadruplex in Bacterial Cells and Its Dominance over the Intramolecular DNA G‐Quadruplex in Mediating Transcription Termination 下载免费PDF全文
Ren‐yi Wu Dr. Ke‐wei Zheng Jia‐yu Zhang Yu‐hua Hao Prof. Dr. Zheng Tan 《Angewandte Chemie (International ed. in English)》2015,54(8):2447-2451
14.
Shangrong Wu Linlin Wang Nan Zhang Ying Liu Dr. Wei Zheng Ang Chang Dr. Fuyi Wang Dr. Songqin Li Dr. Dihua Shangguan 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(17):6037-6047
G‐quadruplex (G4)‐forming sequences are prevalent in the genome and are considered to play important roles in gene regulation, and hence have been viewed as potential therapeutic targets in oncology. However, the structures and functions of most G4s in the genome are poorly understood. Therefore, the development of fluorescent probes and ligands for G4s is important for G4 research and drug discovery. Herein, we report a new G4 ligand, 2,9‐bis[4‐(4‐methylpiperazin‐1‐yl)styryl]‐1,10‐phenanthroline (BMSP), which was synthesized by a simple process. BMSP exhibits almost no fluorescence in aqueous buffer. The interaction of BMSP with G4s greatly enhances its fluorescence with a large Stokes’ shift of 160 nm. Antiparallel human telomeric G4s exhibit the strongest binding affinity (Kd≈0.13 μm ) to BMSP and induce a fluorescence enhancement of up to 150‐fold. BMSP binds to G4s through π–π stacking on the terminal G‐quartets. BMSP can enter live cells, and it strongly inhibits the growth of cancer cells rather than causing cell death. Our results suggest that BMSP has the potential to serve both as a fluorescent probe for some G4s and as a chemotherapeutic agent for cancer treatment. 相似文献
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Xiu‐Cai Chen Dr. Shuo‐Bin Chen Jing Dai Jia‐Hao Yuan Prof. Tian‐Miao Ou Prof. Zhi‐Shu Huang Prof. Jia‐Heng Tan 《Angewandte Chemie (International ed. in English)》2018,57(17):4702-4706
Because of the absence of methods for tracking RNA G‐quadruplex dynamics, especially the folding and unfolding of this attractive structure in live cells, understanding of the biological roles of RNA G‐quadruplexes is so far limited. Herein, we report a new red‐emitting fluorescent probe, QUMA‐1 , for the selective, continuous, and real‐time visualization of RNA G‐quadruplexes in live cells. The applications of QUMA‐1 in several previously intractable applications, including live‐cell imaging of the dynamic folding, unfolding, and movement of RNA G‐quadruplexes and the visualization of the unwinding of RNA G‐quadruplexes by RNA helicase have been demonstrated. Notably, our real‐time results revealed the complexity of the dynamics of RNA G‐quadruplexes in live cells. We anticipate that the further application of QUMA‐1 in combination with appropriate biological and imaging methods to explore the dynamics of RNA G‐quadruplexes will uncover more information about the biological roles of RNA G‐quadruplexes. 相似文献
17.
DNA Triplexes‐Guided Assembly of G‐Quadruplexes for Constructing Label‐free Fluorescent Logic Gates 下载免费PDF全文
Lijun Xu Shanni Hong Xiaoqiang Shen Lu Zhou Jine Wang Jianye Zhang Prof. Dr. Renjun Pei 《化学:亚洲杂志》2016,11(13):1892-1895
Assembly of G‐quadruplexes guided by DNA triplexes in a controlled manner is achieved for the first time. The folding of triplex sequences in acidic conditions brings two separated guanine‐rich sequences together and subsequently a G‐quadruplex structure is formed in the presence of K+. Based on this novel platform, label‐free fluorescent logic gates, such as AND, INHIBIT, and NOR, are constructed with ions as input and the fluorescence of a G‐quadruplex‐specific fluorescent probe NMM as output. 相似文献
18.
Laureen Bonnat Dr. Jérôme Dejeu Hugues Bonnet Béatrice Génnaro Dr. Olivier Jarjayes Prof. Fabrice Thomas Dr. Thomas Lavergne Prof. Eric Defrancq 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(9):3139-3147
G‐rich RNA and DNA oligonucleotides derived from the human telomeric sequence were assembled onto addressable cyclopeptide platforms through oxime ligations and copper‐catalyzed azide‐alkyne cycloaddition (CuAAc) reactions. The resulting conjugates were able to fold into highly stable RNA and DNA:RNA hybrid G‐quadruplex (G4) architectures as demonstrated by UV, circular dichroism (CD), and NMR spectroscopic analysis. Whereas rationally designed parallel RNA and DNA:RNA hybrid G4 topologies could be obtained, we could not force the formation of an antiparallel RNA G4 structure, thus supporting the idea that this topology is strongly disfavored. The binding affinities of four representative G4 ligands toward the discrete RNA and DNA:RNA hybrid G4 topologies were compared to the one obtained with the corresponding DNA G4 structure. Surface plasmon resonance (SPR) binding analysis suggests that the accessibility to G4 recognition elements is different among the three structures and supports the idea that G4 ligands might be shaped to achieve structure selectivity in a biological context. 相似文献
19.
Dr. Tianjun Chang Dr. Hongmei Gong Pi Ding Dr. Xiangjun Liu Dr. Weiguo Li Dr. Tao Bing Dr. Zehui Cao Prof. Dr. Dihua Shangguan 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(12):4015-4021
G‐quadruplex (G4)/hemin DNAzymes have been extensively applied in bioanalysis and molecular devices. However, their catalytic activity is still much lower than that of proteinous enzymes. The G4/hemin DNAzyme activity is correlated with the G4 conformations and the solution conditions. However, little is known about the effect of the flanking sequences on the activity, though they are important parts of G4s. Here, we report sequences containing d(CCC), flanked on both ends of the G4‐core sequences remarkably enhance their DNAzyme activity. By using circular dichroism and UV‐visible spectroscopy, the d(CCC) flanking sequences were demonstrated to improve the hemin binding affinity to G4s instead of increasing the parallel G4 formation, which might explain the enhanced DNAzyme activity. Meanwhile, the increased hemin binding ability promoted the degradation of hemin within the DNAzyme by H2O2. Furthermore, the DNAzyme with d(CCC) flanking sequences showed strong tolerance to pH value changes, which makes it more suitable for applications requiring wide pH conditions. The results highlight the influence of the flanking sequences on the DNAzyme activity and provide insightful information for the design of highly active DNAzymes. 相似文献
20.
Stephane Bandeira Jorge Gonzalez‐Garcia Evangelina Pensa Tim Albrecht Ramon Vilar 《Angewandte Chemie (International ed. in English)》2018,57(1):310-313
There has been increasing interest in the development of small molecules that can selectively bind to G‐quadruplex DNA structures. The latter have been associated with a number of key biological processes and therefore are proposed to be potential targets for drug development. Herein, we report the first example of a reduction‐activated G‐quadruplex DNA binder. We show that a new octahedral platinum(IV)–salphen complex does not interact with DNA in aqueous media at pH 7.4; however, upon addition of bioreductants such as ascorbic acid or glutathione, the compound is readily reduced to the corresponding square planar platinum(II) complex. In contrast to the parent platinum(IV) complex, the in situ generated platinum(II) complex has good affinity for G‐quadruplex DNA. 相似文献