Cui Qi

Highly Selective Phthalocyanine-Thymine Conjugate Sensor for Hg2+ Based on Target Induced Aggregation

Here we describe a highly selective and reversible Hg(2+) sensor, tetra-(thymin-1-yl-acetamido)-phthalocyanine Zn(II) (4T-ZnPc), which combined the optical properties of phthalocyanine (Pc) and the specific interaction of Hg(2+) with thymine (T). The novel phthalocyanine-nucleobase conjugate, 4T-ZnPc, shows a typical ultraviolet-visible absorption spectrum with a split Q-band of monomeric Pc in dimethylformamide (DMF)-water (7:3, v/v) solution, as well as strong fluorescence emission. Upon addition of Hg(2+), the formation of T-Hg-T complex induces aggregation of 4T-ZnPc and results in significant decreases of fluorescence intensity and absorption of the Q-band. Furthermore, the sensor molecules, 4T-ZnPc, show excellent selectivity for Hg(2+), and other ions, such as Pb(2+), Co(2+), Ni(2+), Zn(2+), Cd(2+), Mn(2+), Mg(2+), Ca(2+), Na(+), and K(+), have almost no effect on the optical properties of 4T-ZnPc. This kind of sensor based on Pc may be expanded to the detection of other targets by substituting thymines with other ligands or groups that possess molecular recognition ability.

Fluorescence light-up probe for parallel G-quadruplexes.

Putative G-quadruplex-forming sequences (PQS) are highly prevalent in human genome; however, the structures and functions of most PQSs in genome are poorly understood. Therefore, selective recognition of certain types of G-quadruplexes (G4s) is important for the study of G4s. A new light up fluorescent probe, BPBC composed of benzimidazole and carbazole moieties was designed and synthesized. BPBC possesses a crescent-shaped π-conjugated planar core that is slightly larger than the dimension of the G-quartet plane in G4s. This structure endows BPBC with excellent selectivity to parallel G4s. BPBC exhibits almost no fluorescence in the aqueous buffer condition, its fluorescence increases approximately 330-1800-fold in the presence of parallel G4s but only about 30-fold in the presence of single/double-stranded (ss/ds) DNA and 30-110-fold in the presence of antiparallel G4s. Binding studies indicate that the highly selective fluorescent response of BPBC arises from end-stack binding model to G-quartet.

Specific mercury(II) adsorption by thymine-based sorbent.

A new kind of polymer sorbent based on the specific interaction of Hg(II) with nucleic acid base, thymine, is described for the selective adsorption of Hg(II) from aqueous solution. Two types of sorbents immobilized with thymine were prepared by one-step swelling and polymerization and graft polymerization, respectively. The maximum static adsorption capacity of the new polymer sorbents for Hg(II) is proportional to the density of thymine on their surface, up to 200mg/g. Moreover, the new kind polymer sorbent shows excellent selectivity for Hg(II) over other interfering ions, such as Cu(II), Cd(II), Zn(II), Co(II), Ca(II) and Mg(II), exhibits very fast kinetics for Hg(II) adsorption from aqueous solution, and can be easily regenerated by 1.0M HCl. It also has been successfully used for the selective adsorption of spiked Hg(II) from real tap water samples. This new thymine polymer sorbent holds a great promise in laboratory and industrial applications such as separation, on-line enrichment, solid-phase extraction, and removal of Hg(II) from pharmaceutical, food and environmental samples.

A label-free electrochemical biosensor based on a DNA aptamer against codeine.

In order to develop a sensor for opium alkaloid codeine detection, DNA aptamers against codeine were generated by SELEX (systematic evolution of ligands by exponential enrichment) technique. An aptamer HL7-14, which is a 37-mer sequence with Kd values of 0.91 μM, was optimized by the truncation-mutation assay. The specificity investigation shows that HL7-14 exhibits high specificity to codeine over morphine, and almost cannot bind to other small molecule. With this new selected aptamer, a novel electrochemical label-free codeine aptamer biosensor based on Au-mesoporous silica nanoparticles (Au-MSN) as immobilized substrate has been proposed using [Fe(CN)6](3-/4-) as electroactive redox probe. The linear range covered from 10 pM to 100 nM with correlation coefficient of 0.9979 and the detection limit was 3 pM. Our study demonstrates that the biosensor has good specificity, stability and well regeneration. It can be used to detect codeine.

G-quadruplex DNA aptamers for zeatin recognizing

Zeatins, a major type of cytokinin, are ubiquitous in higher plants, and involve in regulating a wide range of developmental processes. The development of highly specific ligands to zeatins would be very useful in plant biological research. Here we describe a group of oligonucleotide ligands (aptamers) generated against trans-zeatin. The optimized aptamers possess strong affinity to trans-zeatin and trans-zeatin riboside (Kd=3-5 μM), and relatively weak affinity (Kd=27-30 μM) to cis-zeatin and dihydrozeatin. These aptamers adopt a hairpin-G-quadruplex structure for binding to zeatin. A fluorescence turn-on aptasensor based on graphene oxide (GO) was developed for the recognition of zeatins. The specificity assay of this aptasensor shows good response to zeatins, and no response to the adenine derivatives (analog of zeatins) abundantly existing in biological samples. These results show the great potential of these aptamers in chemical analysis and biological investigation of zeatins.

Activity enhancement of G-quadruplex/hemin DNAzyme by spermine

Biogenic polyamines participate in regulating gene expression, activating DNA synthesis and facilitating DNA–protein interaction through interaction with DNA/RNA. The interaction of polyamines with G-quadruplexes (G4s) has been reported to modulate the structure of G4s. In this paper, we investigate the effects of polyamines on one of the properties of G4s, G4/hemin peroxidase. Three polyamines (spermine, spermidine and putrescine) are found to have positive effects on different G4/hemin DNAzymes, in which spermine exhibits the strongest enhancement efficiency. CD and UV/Vis spectral analysis suggests two reasons for the strong activity enhancement: first, spermine protects hemin from rapid degradation by H2O2; second, spermine condenses the G4 structures and provides a favorable microenvironment for the catalytic reaction. Since G4/hemin DNAzymes have been extensively applied in various chemical sensors and biosensors, this finding would be helpful for the design of G4/hemin based sensors and widen the application range of this kind of DNAzyme.

Functional-group specific aptamers indirectly recognizing compounds with alkyl amino group.

Aptamers are usually generated against a specific molecule. Their high selectivity makes them only suitable for studying specific targets. Since it is nearly impossible to generate aptamers for every molecule, it can be of great interest to select aptamers recognizing a common feature of a group of molecules in many applications. In this paper, we describe the selection of aptamers for indirect recognition of alkyl amino groups. Because amino groups are small and positive charged, we introduced a protection group, p-nitrobenzene sulfonyl (p-nosyl) to convert them into a form suitable for aptamer selection. Taking N(ε)-p-nosyl-L-lysine (PSL) as a target, we obtained a group of aptamers using the SELEX technique. Two optimized aptamers, M6b-M14 and M13a exhibit strong affinity to PSL with the K(d) values in the range of 2-5 μM. They also show strong affinity to other compounds containing p-nosyl-protected amino groups except those also possessing an α-carboxyl group. Both aptamers adopt an antiparallel G-quadruplex structure when binding to targets. An aptamer beacon based on M6b-M14 showed good selectivity toward the reaction mixture of p-nosyl-Cl and alkyl amino compounds, and could recognize lysine from amino acid mixtures indirectly, suggesting that aptamers against a common moiety of a certain type of molecules can potentially lead to many new applications. Through this study, we have demonstrated the ability to select aptamers for a specific part of an organic compound, and the chemical conversion approach may prove to be valuable for aptamer selection against molecules that are generally difficult for SELEX.

One-step real time RT-PCR for detection of microRNAs.

Rapid and simple methods for microRNA (miRNA) detection are essential for biological research of miRNAs and clinical diagnosis. Here we describe a sensitive and specific real time RT-PCR (also RT-qPCR) method for miRNA quantification. The whole detection process including reverse transcription and PCR is performed in one PCR tube by a one-step operation on a real-time PCR system. The results display a wide linear range from 0.1 amol to 10 fmol with a detection limit of 12.6 zmol for miRNA let-7a detection. Let-7a in small RNA samples extracted from tumor cells has been successfully detected by this method. This method is cost-effective, simple and rapid, and has the advantages in the high-throughput routing assay of given miRNAs, as well as in non-model research that has less specific kits and reagents.

General Cell-Binding Activity of Intramolecular G-Quadruplexes with Parallel Structure

G-quadruplexes (G4s) are four-stranded nucleic acid structures adopted by some repetitive guanine-rich sequences. Putative G-quadruplex-forming sequences (PQSs) are highly prevalent in human genome. Recently some G4s have been reported to have cancer-selective antiproliferative activity. A G4 DNA, AS1411, is currently in phase II clinical trials as an anticancer agent, which is reported to bind tumor cells by targeting surface nucleolin. AS1411 also has been extensively investigated as a target-recognition element for cancer cell specific drug delivery or cancer cell imaging. Here we show that, in addition to AS1411, intramolecular G4s with parallel structure (including PQSs in genes) have general binding activity to many cell lines with different affinity. The binding of these G4s compete with each other, and their targets are certain cellular surface proteins. The tested G4s exhibit enhanced cellular uptake than non-G4 sequences. This uptake may be through the endosome/lysosome pathway, but it is independent of cellular binding of the G4s. The tested G4s also show selective antiproliferative activity that is independent of their cellular binding. Our findings provide new insight into the molecular recognition of G4s by cells; offer new clues for understanding the functions of G4s in vivo, and may extend the potential applications of G4s.

Specific interactions between adenosine and streptavidin/avidin

The screening of ligands against proteins plays important role in drug discovery and biological research. Using a dye labelled Streptavidin binding aptamer (SBA) as a competitive reporter probe, we found that adenosine bound to streptavidin specifically. Fluorescence spectral analysis showed that adenosine bound to both avidin and streptavidin with the K(ds) in the range of 0.1-0.2 mM, and these bindings can be blocked by biotin. Although streptavidin and avidin are well-known and widely used in bioanalysis, their biological role is still a riddle so far. Since adenosine is a ubiquitous physiological regulator present in cells, our finding provides new clues for the understanding of the functions of both proteins.