Your search keyword '"Ouyang, Jin"' showing total 13 results

1. A comparative study of plasmonic-enhanced single-molecule fluorescence induced by gold nanoantennas and its application for illuminating telomerase.

Author

Niu C, Peng M, You Y, Wang R, Jia Y, Xie T, Wang J, Na N, and Ouyang J

Subjects

Lighting, Telomerase metabolism, Fluorescence, Gold chemistry, Metal Nanoparticles chemistry, Telomerase analysis

Abstract

A comparative study of plasmonic-enhanced single-molecule fluorescence (PESMF) induced by four gold nanoantennas is reported. The gold triangular nanoplate (Au TNP) is the optimal PESMF substrate for Cy5.5 owing to its sharpest point and strongest electric fields. The Au TNP is chosen for the preparation of a telomerase sensor.

Published

2017

2. Near-Infrared-Fluorescent Probes for Bioapplications Based on Silica-Coated Gold Nanobipyramids with Distance-Dependent Plasmon-Enhanced Fluorescence.

Author

Niu C, Song Q, He G, Na N, and Ouyang J

Subjects

Copper chemistry, Infrared Rays, MicroRNAs analysis, Phosphates analysis, Fluorescence, Fluorescent Dyes chemistry, Gold chemistry, Metal Nanoparticles chemistry, Silicon Dioxide chemistry, Surface Plasmon Resonance methods

Abstract

Optical antennas with anisotropic metal nanostructures are widely used in the field of fluorescence enhancement based on localized surface plasmons (LSPs). They overcome the intrinsic defects of low brightness of near-infrared (NIR) dyes and can be used to develop sensitive NIR sensors for bioapplications. Here, we demonstrate a novel NIR plasmon-enhanced fluorescence (PEF) system consisting of elongated gold nanobipyramids (Au NBPs) antennas, silica, and NIR dyes. Silica was chosen as the rigid spacer to regulate the distance between the metal nanostructures and dyes. Maximum enhancement was observed at a distance of approximately 17 nm. The enhanced fluorescence could be quenched by Cu 2+ and recovered by pyrophosphate (PPi) owing to the strong affinity between PPi and Cu 2+ . Thus, the Au NBP@SiO 2 @Cy7 nanoparticles (NPs) detect PPi via "switch-on" fluorescence signals, with a detection limit of 80 nM in the aqueous phase. The probe not only detects PPi in living cells but also can be used for a microRNA assay with a detection limit of 8.4 pM by detecting PPi in rolling circle amplification (RCA). Additionally, gold nanorods (Au NRs) with the same longitudinal plasmon resonance wavelength (LPRW) as the Au NBPs were prepared to synthesize Au NR@SiO 2 @Cy7 NPs for comparison. The experimental and finite-different time-domain (FDTD) simulation results indicate that the stronger electric fields of Au NBPs contribute to a fluorescence enhancement that is several times higher than that of Au NRs, confirming the superior properties of Au NBPs as novel ideal substrates to develop PEF biosensors.

Published

2016

3. A visual sensor array for pattern recognition analysis of proteins using novel blue-emitting fluorescent gold nanoclusters.

Author

Xu S, Lu X, Yao C, Huang F, Jiang H, Hua W, Na N, Liu H, and Ouyang J

Subjects

Calorimetry, Particle Size, Photoelectron Spectroscopy, Spectrometry, Fluorescence, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Biosensing Techniques, Fluorescence, Gold chemistry, Metal Nanoparticles chemistry, Pattern Recognition, Automated, Proteins analysis

Abstract

This paper describes a visual sensor array for pattern recognition analysis of proteins based on two different optical signal changes: colorimetric and fluorometric, by using two types of novel blue-emitting collagen protected gold nanoclusters and macerozyme R-10 protected gold nanoclusters with lower synthetic demands. Eight proteins have been well-discriminated by this visual sensor array, and protein mixtures after one-dimensional polyacrylamide gel electrophoresis also could be well-discriminated. The possible mechanism of this sensor array was illustrated and validated by fluorescence spectra, X-ray photoelectron spectroscopy (XPS), fluorescence lifetime, isothermal titration calorimetry (ITC), and matrix-assisted laser desorption/ionization-time-of-flight mass spectrometry (MALDI-TOF MS) experiments. It was attributed to that the adsorption of proteins onto the surface of gold nanoclusters (Au NCs), forming the protein-Au NCs complex. Furthermore, serums from normal and hepatoma patients were also effectively discriminated by this visual sensor array, showing feasible potential for diagnostic applications.

Published

2014

4. Direct CdTe quantum-dot-based fluorescence imaging of human serum proteins.

Author

Na N, Liu L, Taes YE, Zhang C, Huang B, Liu Y, Ma L, and Ouyang J

Subjects

Humans, Blood Proteins chemistry, Cadmium Compounds chemistry, Fluorescence, Quantum Dots, Tellurium chemistry

Published

2010

5. A Fluorescence Light‐Up Silver Nanocluster Beacon Modulated by Metal Ions and Its Application in Telomerase‐Activity Detection.

Author

Peng, Manshu, Na, Na, and Ouyang, Jin

Subjects

SILVER ions, METAL ions, FLUORESCENCE, SILVER

Abstract

DNA‐templated silver nanoclusters (DNA‐AgNCs) have been extensively studied in recent years. The enhancement of fluorescence emission from DNA‐AgNCs is still being explored. Herein, a study on the fluorescence enhancement of DNA‐AgNCs induced by metal ions is reported. The enhancement is greatly dependent on the primary sequence and secondary structure of the DNA strands. Thus, a label‐free AgNCs‐based molecular beacon (MB) was explored for the detection of telomerase activity. Nonfluorescent MB‐AgNCs in phosphate buffer emit dramatic red fluorescence when Mg2+ is introduced, whereas Mg2+ has a limited effect on the weak fluorescence of DNA‐AgNCs when the hairpin structure of MB is opened. Telomerase primer can be elongated by telomerase, which results in unfolding of MB in a strand‐displacement reaction. On the basis of the different brightnesses of AgNCs produced by the two DNA templates, telomerase activity can be detected. The MB‐AgNCs sensing platform provides a simple and low‐cost method to detect telomerase activity and shows great potential in the construction of cost‐effective probes for biomolecular detection. Light it up: Dimly fluorescent DNA‐templated silver nanoclusters (DNA‐AgNCs) were lit up by metal ions, especially divalent ions. The emission modulation of DNA‐AgNCs by metal ions is greatly dependent on the sequence and secondary structure of the DNA strands. On the basis of these findings, a sensitive and reliable molecular beacon‐templated silver nanoclusters (MB‐AgNCs) sensing platform was developed for detecting telomerase activity. [ABSTRACT FROM AUTHOR]

Published

2019

6. DNA Three-Way Junction for Differentiation of Single-Nucleotide Polymorphisms with Fluorescent Copper Nanoparticles.

Author

Sun, Feifei, You, Ying, Liu, Jie, Song, Quanwei, Shen, Xiaotong, Na, Na, and Ouyang, Jin

Subjects

DNA, NANOPARTICLES, NUCLEOTIDES, ENZYMES, FLUORESCENCE

Abstract

A label- and enzyme-free fluorescent sensor for the detection of single-nucleotide polymorphisms (SNPs) at room temperature is proposed, using new copper nanoparticles (CuNPs) as fluorescent reporters. The CuNPs were constructed by using a DNA three-way junction (3WJ) template. In this assay, two complementary adenine/thymine-rich probes can hybridize with the wild-type target simultaneously to construct a 3WJ structure, serving as an efficient scaffold for the generation of CuNPs. However, the CuNPs produce weak fluorescence when the probes bind with a mutant-type target. SNPs can be identified by the difference in fluorescence intensity of the CuNPs. This SNPs detection strategy is straightforward, cost-effective, and avoids the complicated procedures of labeling or enzymatic reactions. The fluorescent sensor is versatile and can be applied to all types of mutation because the probes are programmable. Moreover, the sensor exhibits good detection performance in biological samples. [ABSTRACT FROM AUTHOR]

Published

2017

7. Plasmon-Enhanced Fluorescence-Based Core-Shell Gold Nanorods as a Near-IR Fluorescent Turn-On Sensor for the Highly Sensitive Detection of Pyrophosphate in Aqueous Solution.

Author

Wang, Le, Song, Quanwei, Liu, Qiuling, He, Dacheng, and Ouyang, Jin

Subjects

PYROPHOSPHATES, NANORODS, FLUORESCENCE, PORPHYRINS, NANOSENSORS, ANIONS

Abstract

Developing plasmon-enhanced fluorescence (PEF) technology for identifying important biological molecules has a profound impact on biosensing and bioimaging. However, exploration of PEF for biological application is still at a very early stage. Herein, novel PEF-based core-shell nanostructures as a near-infrared fluorescent turn-on sensor for highly sensitive and selective detection of pyrophosphate (PPi) in aqueous solution are proposed. This nanostructure gold nanorod (AuNR)@SiO2@meso-tetra(4-carboxyphenyl) porphyrin (TCPP) contains a gold nanorod core with an aspect ratio of 2.3, a silica shell, and TCPP molecules covalently immobilized onto the shell surface. The silica shell is employed a rigid spacer for precisely tuning the distance between AuNR and TCPP and an optimum fluorescence enhancement is obtained. Due to the quenching effect of Cu2+, the copper porphyrin (TCPP-Cu2+) results in a weak fluorescence. In the presence of PPi, the strong affinity between Cu2+ and PPi can promote the disassembly of the turn-off state of TCPP-Cu2+ complexes, and therefore the fluorescence can be readily restored. By virtue of the amplified fluorescence signal imparted by PEF, this nanosensor obtains a detection limit of 820 × 10-9m of PPi with a good selectivity over several anions, including phosphate. Additionally, the potential applicability of this sensor in cell imaging is successfully demonstrated. [ABSTRACT FROM AUTHOR]

Published

2015

8. Sequence-Dependent dsDNA-Templated Formation of Fluorescent Copper Nanoparticles.

Author

Song, Quanwei, Shi, Yu, He, Dacheng, Xu, Shenghao, and Ouyang, Jin

Subjects

METAL nanoparticles, DOUBLE-stranded RNA, COPPER, FLUORESCENCE, NUCLEASES

Abstract

There are only a few systematic rules about how to selectively control the formation of DNA-templated metal nanoparticles (NPs) by varying sequence combinations of double-stranded DNA (dsDNA), although many attempts have been made. Herein, we develop a facile method for sequence-dependent formation of fluorescent CuNPs by using dsDNA as templates. Compared with random sequences, AT sequences are better templates for highly fluorescent CuNPs. Other specific sequences, for example, GC sequences, do not induce the formation of CuNPs. These results shed light on directed DNA metallization in a sequence-specific manner. Significantly, both the fluorescence intensity and the fluorescence lifetime of CuNPs can be tuned by the length or the sequence of dsDNA. In order to demonstrate the promising practicality of our findings, a sensitive and label-free fluorescence nuclease assay is proposed. [ABSTRACT FROM AUTHOR]

Published

2015

9. Plasmon‐Enhanced Fluorescent Sensor based on Aggregation‐Induced Emission for the Study of Protein Conformational Transformation.

Author

Cui, Yanyun, Yuan, Chang, Tan, Hongwei, Zhang, Zhanbin, Jia, Yijing, Na, Na, and Ouyang, Jin

Subjects

FLUORESCENCE, PROTEIN conformation, PRIONS, ANTHRACENE derivatives, SULFONATES, BLOOD serum analysis

Abstract

The alteration in protein conformation not only affects the performance of its biological functions, but also leads to a variety of protein‐mediated diseases. Developing a sensitive strategy for protein detection and monitoring its conformation changes is of great significance for the diagnosis and treatment of protein conformation diseases. Herein, a plasmon‐enhanced fluorescence (PEF) sensor is developed, based on an aggregation‐induced emission (AIE) molecule to monitor conformational changes in protein, using prion protein as a model. Three anthracene derivatives with AIE characteristics are synthesized and a water‐miscible sulfonate salt of 9,10‐bis(2‐(6‐sulfonaphthalen‐2‐yl)vinyl)anthracene (BSNVA) is selected to construct the PEF–AIE sensor. The sensor is nearly non‐emissive when it is mixed with cellular prion protein while emits fluorescence when mixed with disease‐associated prion protein (PrPSc). The kinetic process of conformational conversion can be monitored through the fluorescence changes of the PEF–AIE sensor. By right of the amplified fluorescence signal, this PEF–AIE sensor can achieve a detection limit 10 pM lower than the traditional AIE probe and exhibit a good performance in human serum sample. Furthermore, molecular docking simulations suggest that BSNVA tends to dock in the β‐sheet structure of PrP by hydrophobic interaction between BSNVA and the exposed hydrophobic residues. 9,10‐bis[2‐(6‐sulfonatopropoxyl)naphthylethenyl]anthracene (BSNVA) molecules with aggregation‐induced emission performance are introduced into a plasmon‐enhanced fluorescence system to build a hybrid sensor, and the fluorescence intensity of BSNVA is enhanced by the core–shell gold nanocube. Based on the specific recognition of proteins by the aptamer and the interaction between the protein and BSNVA, the sensor is applied to turn‐on detection of prion proteins and monitor its conformational transformation. [ABSTRACT FROM AUTHOR]

Published

2019

10. A label-free fluorometric assay for actin detection based on enzyme-responsive DNA-templated copper nanoparticles.

Author

Song, Quanwei, Yang, Lixia, Chen, Hongkun, Zhang, Rong, Na, Na, and Ouyang, Jin

Subjects

*ACTIN, *DOUBLE-stranded RNA, *NANOPARTICLES, *COPPER, *DEOXYRIBONUCLEASES

Abstract

Herein, we develop a fluorescent strategy for label-free detection of actin by the in situ formation of double-stranded DNA (dsDNA) templated copper nanoparticles (CuNPs) and the digestion capability of deoxyribonuclease I (DNase I). In this design, the introduction of actin can effectively hinder the enzymic digestion owing to the exceptional target-mediated conformational structure between actin and DNase I. Consequently, the remaining adenine-thymine-rich dsDNA can act as an efficient template for fluorescent CuNPs ( λ ex = 340 nm, λ em = 585 nm) with a Mega-Stokes shifting (245 nm). This novel fluorescent strategy exhibits several advantages such as low-cost and environmental-friendly, because it does not require the toxic organic dyes and laborious procedures. Under optimized experimental conditions, this method realizes a turn-on selective and sensitive response for actin with a detection limit of 0.12 μg mL −1 and a detection capability in complex biological media with satisfactory results. [ABSTRACT FROM AUTHOR]

Published

2017

11. Rapid trace level determination of sulfonamide residues in honey with online extraction using short C-18 column by high-performance liquid chromatography with fluorescence detection.

Author

Sajid, Muhammad, Na, Na, Safdar, Muhammad, Lu, Xin, Ma, Lin, He, Lan, and Ouyang, Jin

Subjects

*HONEY, *SULFONAMIDES, *COLUMN chromatography, *HIGH performance liquid chromatography, *FLUORESCENCE, *DERIVATIZATION

Abstract

A sensitive and inexpensive quantification method with online extraction using a short C-18 column for sulfonamide residues in honey by high performance liquid chromatography with fluorescence detector was developed and validated. In sample preparation, acid hydrolysis was used to break the N-glycoside bond between the honey sugar and sulfonamide drugs and derivatization of sulfonamide residues with fluorescamine was conducted at pH 3.5 using a citrate buffer (0.5M) in the honey matrix. The chromatography was carried out on Zorbax Extended C-18 (250mm×4.6mm; 5μm) column, using a mixture of acetonitrile and an acetate buffer (pH 4.50, 20mM) as a mobile phase. A Zorbax Extended C-18 (12mm×4.6mm; 5μm) column was used for online extraction of fifteen sulfonamide residues from honey sample with the help of a two position valve. The limit of quantification of sulfonamide residues in honey was less than 3ngg−1, and the percentage recovery of study compounds in spiked honey sample was from 80% for sulfacetamide to 100% of sulfachloropyridazine. The developed method has excellent linearity for all studied sulfonamides with a correlation coefficient 0.993. [ABSTRACT FROM AUTHOR]

Published

2013

12. The application of Au nanoclusters in the fluorescence imaging of human serum proteins after native PAGE: Enhancing detection by low-temperature plasma treatment

Author

Zhang, Jing, Sajid, Muhammad, Na, Na, Huang, Lingyun, He, Dacheng, and Ouyang, Jin

Subjects

*GOLD nanoparticles, *FLUORESCENCE, *BLOOD proteins, *LOW temperature plasmas, *POLYACRYLAMIDE gel electrophoresis, *ISOTHERMAL titration calorimetry, *SENSITIVITY analysis

Abstract

Abstract: Proteins in human serum are increasingly being studied for their roles in a wide variety of biochemical interactions. To improve the sensitivity of the detection of human serum proteins after native polyacrylamide gel electrophoresis (PAGE), we have developed a fluorescence imaging detection technique for the detection. BSA (bovine serum albumin)-stabilized Au nanoclusters (NCs) were applied as fluorescent probes for imaging, and low-temperature plasma (LTP) treatment of the Au NCs was introduced to enhance the fluorescence imaging. Here, a series of optimization experiments (e.g. those to optimize for pH) were conducted for protein detection after 1-DE and 2-DE, and several types of discharge gases (He, O2, and N2) were selected for the LTP treatment. The possible mechanism of interaction between the proteins and the Au NCs was demonstrated by an isothermal titration calorimetry experiment. Using the present method, a sensitivity of 7–14 times higher than that of traditional staining detection methods was observed in the oxygen LTP-treated Au NCs fluorescence images, and some relatively low abundance proteins (identified by the MS/MS technique) were easily detected. In addition, this fluorescence imaging method was applied to distinguish between the serum samples of patients with liver diseases and those of healthy people. Thus, this fluorescence imaging method is suitable for the highly sensitive detection of various serum proteins, and it shows potential capabilities for clinical diagnosis. [Copyright &y& Elsevier]

Published

2012

13. Fast haptoglobin phenotyping based on microchip electrophoresis

Author

Huang, Bingrong, Huang, Changgang, Liu, Pingping, Wang, Fangfang, Na, Na, and Ouyang, Jin

Subjects

*HAPTOGLOBINS, *PHENOTYPES, *MICROCHIP electrophoresis, *LASERS, *FLUORESCENCE, *FLUORESCEIN, *CYANATES, *LIVER cancer patients

Abstract

Abstract: A new and fast method for haptoglobin phenotyping was developed based on microchip electrophoresis with laser induced fluorescence detection. Haptoglobin phenotypes 1-1 and 2-2 were labeled with fluorescein isothiocyanate. The analyses were performed on glass microchip which was simply treated with sodium dodecyl sulfate. After the optimization of the separation conditions, Hp 1-1 and Hp 2-2 could be differentiated in 150s and the detection limits for Hp 1-1 and Hp 2-2 were 0.39 and 0.62μg/mL, respectively. Finally, the method was applied to human serum samples from healthy people and liver cancer patients. A decrease in Hp concentration for liver cancer patients was confirmed. Featuring high efficiency, speed, simplicity, the method reveals great potentials for the diagnosis of diseases and proteome research. [Copyright &y& Elsevier]

Published

2011