Fluorescence ‘off–on’ probe for lead (II) detection based on Atractylodes III CQDs and bioimaging

In this work, a type of carbon quantum dots (CQDs) with bright blue emission was readily fabricated through one-step hydrothermal treatment from Atractylodes III. We explored the surface morphology and optical properties of the CQDs using transmission electron microscopy, X-ray diffraction patterns, X-ray photoelectron spectroscopy, Fourier transform infrared spectroscopy and ultraviolet–visible light spectrophotometry. The obtained CQDs possessed good photoluminescence properties, water solubility, and biocompatibility. The fluorescence quantum yield of these was 3.72%. It was found that the fluorescence intensity of CQDs was quenched by picric acid. After adding lead (II), the fluorescence could be effectively recovered. Therefore, an ‘off–on’ fluorescence probe was designed to detect lead (II) in the range 0–580 μM and the limit of detection was 0.068 μM. In addition, the experiments showed that the CQDs could be successfully used in bioimaging and as a hidden fluorescent ink.     

Paper mill sludge-based carbon quantum dots as a specifically ratiometric fluorescent probe for the sensitive and selective detection of coptisine

Coptisine (COP), one of the bioactive components in Rhizoma Coptidis, has many pharmacological effects. Meanwhile, the determination of COP is essential in pharmacological and clinical applications. Herein, we prepared carbon quantum dots (CQDs) by one-step oil-thermal method using paper mill sludge (PMS) as precursor, and developed a ratiometric fluorescence method for the determination of COP. The structural and optical properties of PMS-CQDs were evaluated through high-resolution transmission electron microscopy (HRTEM), Fourier-transform infrared (FTIR) spectroscopy, X-ray photoelectron spectroscopy (XPS), X-ray powder diffraction (XRD), ultraviolet-visible (UV-vis), fluorescence, zeta potential and fluorescence lifetime experiments. Fluorescence intensity ratio at 550 nm and 425 nm (I₅₅₀/I₄₂₅) was recorded as an index for quantitative detection of COP. The detection concentration of COP ranges from 0.1 to 50 μM in good linear correlation (R² = 0.9974) with a limit of detection of 0.028 μM (3σ/k). The quenching mechanism was deduced to be inner filter effect and static quenching. The ratiometric fluorescent probe showed impressive selectivity and sensitivity towards COP, and was successfully applied to the detection of COP in human urine with expected recoveries (95.22–111.00%) and relative standard deviations (0.46–2.95%), indicating that our developed method has a great application prospect in actual sample detection.     

Folic acid incorporated nitrogen-doped carbon dots as a turn-on fluorescence probe for homocysteine detection

This study describes the development of a low-cost fluorescence assay for detecting homocysteine (Hcy) without the interference of cysteine and glutathione using carbon quantum dots. Herein nitrogen-doped carbon quantum dots (NCDs) were synthesized from citric acid as the carbon source and urea as the dopant using a one-pot microwave-assisted method. The obtained NCDs were incorporated with folic acid (FA) by the direct ex situ addition method and were used as a fluorescence probe to detect Hcy. The probe exhibited a fluorescence turn-on response with increased Hcy concentration up to 50 μM with a limit of detection of 2.276 μM. The point of care detection of Hcy using the probe was also tested with a paper-based assay strip.     

Structural and functional differences between fetal and adult serum albumin

The binding of bilirubin with adult of fetal human serum albumin has been studied by steady-state fluorescence emission spectroscopy. The 1:1 complex between bilirubin and the two albumin samples shows very similar fluorescence properties, as well as essentially identical accessibility of the protein-bound bilirubin to fluorescence quenchers added to the aqueous medium. The intramolecular distance between bilirubin and the single tryptophyl residue can be estimated to be 2.4 +/- 0.2 nm for both proteins by singlet-singlet energy transfer. These findings suggest that fetal and adult human serum albumin have a very similar three-dimensional structure; the different binding capacity for bilirubin displayed by the two proteins is likely to be the consequence of small differences in the physico-chemical properties of some amino acid residues close to the bilirubin binding site, as indicated by pH-titration experiments of the intrinsic albumin fluorescence.     

A novel method to determine total and free serum bilirubin.

The determination of total (unconjugated) and free serum bilirubin concentrations using a novel and sensitive method based on static fluorescence quenching of daneyl bovine serum albumin was developed. The method allowed the use of a sample of 5 μl or less to determine total bilirubin over a range of 10–200 μg/ml with good recovery (94.9 ± 2.2%). For the determination of total bilirubin, a denaturation medium containing 8 m urea, 10 mm dithloerythreitol, and 0.1 m Tris was employed to eliminate interference by human serum albumin itself. The method was also tested with patients' sera containing negligible conjugated bilirubin in order to compare it to a commonly used “diazo” method. The correlation between the two methods gave a practically linear relation (γ = 0.99). The effects of a number of potentially interfering substances were tested and the results showed the test was specific for bilirubin. Concentrations of free bilirubin were determined without adding a denaturation agent. The experimental values were in agreement with those calculated theoretically using the isotherm of a single binding site and an association constant of human serum albumin to bilirubin of 1.5 × 10⁸m^?1.     

Facile hydrothermal synthesis of nitrogen rich blue fluorescent carbon dots for cell bio-imaging of Candida albicans

Nitrogen doped carbon dots (N-CDs) are well documented as an outstanding fluorogenic material for protein tags, live cell imaging and protein-receptor based fluorescence sensors owing to its good optical features with less cytotoxicity and better water solubility. In this regard, the present work describes the synthesis of nitrogen rich blue fluorescent carbon dots (NR-CDs) through hydrothermal treatment of citric acid monohydrate (CA) and 2-aminopyridine (2-AP). The optical properties of NR-CDs are further analyzed by common analytical methods viz., Fourier transform infrared (FT-IR), UV–visible (UV–vis) and Fluorescence spectroscopies. The surface chemical composition and morphology of NR-CDs are acquired by X-ray photo electron spectroscopy (XPS) and high resolution transmission electron microscopy (HR-TEM), respectively. The NR-CDs produce blue fluorescent at 421 nm at the excitation wavelength of 310 nm, the calculated quantum yield is about 18% with respect to standard quinine sulfate. The synthesized NR-CDs contains 15.03 wt % of N revealed by XPS results. Further, the NR-CDs are used as a fluorescence staining agent for cell imaging of Candida albicans (C. albicans) and the cytotoxicity are also measured. All the outcomes proposed that the NR-CDs act as good staining agent for C. albicans with less cytotoxicity.     

Determination of octopamine in human plasma by capillary electrophoresis with optical fiber light-emitting diode-induced fluorescence detection

A new analytical method based on capillary electrophoresis (CE) separation and optical fiber light-emitting diode (LED)-induced fluorescence detection has been developed for the determination of octopamine. Naphthalene-2,3-dicarboxaldehyde (NDA) was used for precolumn derivatization of octopamine. The separation and determination of the derivative was performed using a laboratory-built CE system with an optical fiber LED-induced fluorescence detector. Optimal separation was obtained at 20 kV using a background electrolyte solution consisting of 25 mM sodium borate (pH 9.2). High sensitivity detection was achieved by the optical fiber LED-induced fluorescence detection using a purple LED as the excitation source. The limit of detection (signal/noise=3) for octopamine was 5.0 x 10(-9)M. A calibration curve ranging from 1.0 x 10(-8) to 5.0 x 10(-7)M was shown to be linear. Using this method, the levels of octopamine in human plasma from healthy donors were determined.     

Elucidating the interaction of ticlopidine with serum albumin and its role in bilirubin displacement in vitro

Ticlopidine is an anti-platelet drug that functions as a P2Y₁₂ receptor antagonist. The present study provides a detailed characterization of interaction of ticlopidine with a model transport protein, bovine serum albumin (BSA) as well as an assessment of its bilirubin displacing ability using a multi-spectroscopic approach in combination with isothermal titration calorimetry. The value of binding constant determined using ITC studies was found to be 3.03 × 10³ M^?1 with a binding stoichiometry of approximately 1:1. Competitive site marker experiments indicate that ticlopidine binds to Sudlow site I, located in subdomain IIA of BSA. In addition, Circular dichroism and 3D fluorescence spectroscopy indicated structural and conformational changes in BSA on interaction with ticlopidine. Thermodynamic parameters suggested that the reaction was spontaneous, exothermic, entropically driven, and involved hydrophobic interactions. These results were well supported by those obtained through molecular docking studies. Additionally, the effect of ticlopidine on bilirubin and albumin interaction was evaluated using the peroxidase method as well as through fluorescence spectroscopy. Ticlopidine was found to displace bilirubin from serum albumin. Moreover, the binding constant of bilirubin–serum albumin interaction also decreased in presence of ticlopidine. The results indicated that ticlopidine is a competitive displacer of bilirubin in vitro and may contribute to the incidences hyperbilirubinemia associated with the usage of this drug.     

荧光银纳米团簇的生物合成及其在痕量六价铬检测中的应用

【目的】利用季也蒙毕赤酵母ZJC-1合成银纳米团簇并用于痕量Cr(Ⅵ)的检测。【方法】使用经耐银驯化的季也蒙毕赤酵母ZJC-1生物合成荧光银纳米团簇,并对其结构和荧光性能进行了表征,探究Cr(Ⅵ)对银纳米团簇荧光的选择性猝灭作用,建立了银纳米团簇荧光强度与Cr(Ⅵ)浓度的线性关系。同时还考察了体系p H和其他金属离子对Cr(Ⅵ)检测的影响。【结果】Cr(Ⅵ)浓度在一定的范围内(1–80μmol/L)与银纳米团簇荧光强度(F_0–F)/F_0有着良好的线性关系(R~2=0.9821),线性方程为(F_0–F)/F_0=0.0054×C_cr(Ⅵ)+0.1876,检测限为184 nmol/L(信噪比为3)。利用该方法检测实际水样(松花江、马家沟河)中的Cr(Ⅵ),回收率介于97.73%–102.88%之间。【结论】以季也蒙毕赤酵母ZJC-1为还原剂和稳定剂,制备了具有较好荧光性能的水溶性银纳米团簇,基于Cr(Ⅵ)对银纳米团簇荧光的选择性猝灭作用,建立了一种快速且灵敏检测痕量Cr(Ⅵ)的新方法,并成功地应用于松花江、马家沟河水样中Cr(Ⅵ)的测定,在分析检测领域中具有良好的应用前景。     

Preparation of carbon quantum dots based on starch and their spectral properties

A simple method for the synthesis of water‐soluble carbon quantum dots (CQDs) has been developed based on chemical oxidation of starch. The structures and optical properties of the CQDs were characterized by ultraviolet–visible (UV–Vis) spectroscopy, photoluminescence spectroscopy (PL) and transmission electron microscopy. The CQDs were found to emit bright blue fluorescence and disperse uniformly. The effects of ambient temperature, light and pH on the properties of CQDs were studied. The CQDs exhibited good chemical stability, good photostability and pH sensitivity. Furthermore, the interaction between CQDs and bovine serum albumin (BSA) was investigated. Copyright © 2014 John Wiley & Sons, Ltd.     

Fluorescence resonance energy transfer (FRET) using ssDNA binding fluorescent dye

There is a need for simple and inexpensive methods for genotyping single nucleotide polymorphisms (SNPs) and short insertion/deletion variations (InDels). In this work, I demonstrate that a single-stranded DNA (ssDNA) binding dye can be used as a donor fluorophore for fluorescence resonance energy transfer (FRET). The method presented is a homogenous assay in which detection is based on the FRET from the fluorescence of the ssDNA dye bound to the unmodified detection primer to the fluorescent nucleotide analog incorporated into this detection primer during cyclic template directed primer extension reaction. Collection of the FRET emission spectrum with a scanning fluorescence spectrophotometer allows powerful data analysis. The fluorescence emission signal is modified by the optical properties of the assay vessel. This seems to be a completely neglected parameter. By proper selection of the optical properties of the assay plate one can improve the detection of the fluorescence emission signal.     

Label‐free imaging and spectroscopy for early detection of cervical cancer

The label‐free imaging and spectroscopy method was studied on cervical unstained tissue sections obtained from 36 patients. The native fluorescence spectra of tissues are analyzed by the optical redox ratio (ORR), which is defined as fluorescence intensity ratio between NADH and FAD, and indicates the metabolism change with the cancer development. The ORRs of normal tissues are consistently higher than those of precancer or cancerous tissues. A criterion line of ORR at 5.0 can be used to discriminate cervical precancer/cancer from normal tissues. The sensitivity and specificity of the native fluorescence spectroscopy method for cervical cancer diagnosis are determined as 100% and 91%. Moreover, the native fluorescence spectroscopy study is much more sensitive on the healthy region of cervical precancer/cancer patients compared with the traditional clinical staining method. The results suggest label‐free imaging and spectroscopy is a fast, highly sensitive and specific method on the detection of cervical cancer.      

Optical and electronic coupling of the redox copper Azurin on ITO-coated quartz substrate

We have investigated the hybrid system constituted by the redox copper protein Azurin integrated with the semiconductor indium tin oxide (ITO) coated on quartz substrate. The system appears to be a good candidate for bio-sensing and bio-optoelectronics applications, especially due to the coupling between the optical and electron transfer features of Azurin with the conductive properties and optical transparency of ITO. The optical, morphological and electrical properties of the system have been investigated by combining optical absorption and transmission, steady-state fluorescence, resonance Raman spectroscopy and scanning probe microscopies. We found that Azurin molecules are firmly anchored on ITO and retain their structural and optical features underlying the physiological electron transfer activity. Scanning tunnelling spectroscopy evidenced a good electric coupling between the protein molecules and the substrate and a concomitant modulation of the ITO semiconductor properties upon deposition of Azurin. Some interplay between the conduction and valence bands of ITO and the electronic levels of Azurin is therefore suggested. These results are of a significant relevance in the perspective of developing bio-nanodevices able to process both optical and electrical signals, in conjugation also with the biorecognition capability of the protein molecules.     

光学技术在早期龋齿检测中的应用

介绍了光学技术在口腔医学早期龋齿无损检测领域的应用,包括基于牙齿自体荧光效应的定量光导荧光技术和激光龋齿检测技术;基于光散射效应的数字化显影光纤透照术,以及基于牙釉质双折射效应的偏振敏感光学相干断层术和偏振拉曼光谱技术.详细介绍了各种光学方法应用于龋齿检测的基本原理、实验方案和研究现状,并对不同的光学方法进行比较.最后,提出基于频域荧光寿命成像的早期龋齿检测方法,并对该方案的技术路线进行了介绍.     

Effect of cucurbitacins on bilirubin-albumin binding in human plasma

The aim of this study is to investigate the effect of three cucurbitacins (Cuc) E, D and I on the bilirubin-albumin binding, both in human serum albumin (HSA) and in plasma. Bilirubin-HSA solution and plasma free of cucurbitacins were prepared as well as others containing serial concentrations of cucurbitacins. The concentration of unbound bilirubin was determined in bilirubin-HSA solution and the direct and total bilirubin concentrations were measured in plasma (with normal or elevated bilirubinemia) by Jendrassik and Grof method. In the conditions we adopted Cuc E and D (to a lesser extent), decreased the levels of unbound bilirubin in bilirubin-HSA solution and decreased direct bilirubin concentration and total bilirubin concentration in plasma in a dose-dependent manner while Cuc I had no effect. The effect of Cuc is related to the presence of native HSA. Thus, when albumin was absent or has been denatured by heating or by urea, Cuc E did not modify bilirubin levels, suggesting that the native structure of albumin is essential for such activity. The interaction of HSA with Cuc E was investigated by fluorescence spectroscopy. Cuc E increased the intrinsic fluorescence of the protein and the magnitude of fluorescence intensity of bilirubin-albumin complex. We concluded that Cuc E and D produced a rearrangement in the structure of albumin, particularly in the domain-II, resulting in an increase in the binding of bilirubin to albumin regardless to whether it's conjugated to glucuronic acid or unconjugated.     

Synthesis and characterization of chitosan/ZnO nanoparticle composite membranes

Novel chitosan/ZnO nanoparticle (CS/nano-ZnO) composite membranes were prepared via the method of sol-cast transformation and studied by UV-vis absorption spectroscopy (UV-vis), Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), scanning electron microscopy (SEM), and energy dispersive X-ray fluorescence spectrometry (EDX). The characterization revealed that ZnO nanoparticles dispersed homogeneously within the chitosan matrix. The mechanical and antibacterial properties of the product were investigated. The results showed that the ZnO content had an effect on the mechanical properties of CS/nano-ZnO composite membranes, and that the antibacterial activities of CS membranes for Bacillus subtilis, Escherichia coli, and Staphylococcus aureus were enhanced by the incorporation of ZnO. Further, CS/nano-ZnO composite membranes with 6-10 wt % ZnO exhibited high antibacterial activities.     

The fluorescence quenching of Ru(bipy)32+: an application for the determination of bilirubin in biological samples

A simple, sensitive and efficient fluorescence method has been established for the quantitative analysis of bilirubin. The fluorometric determination method was based on the kinetic quenching of ruthenium(II) fluorescence. The quenching effect may be due to the complexation reaction of bilirubin with ruthenium(II). Therefore, the effects of ruthenium concentrations and different surfactants have been studied. Under the optimized experimental parameters, the fluorescence intensity decreased proportionally with the bilirubin concentration and linearity was established in the range of 3.3 × 10⁻⁷ to 3.0 × 10⁻⁴ M bilirubin. The detection limit calculated from the calibration graph was found to be 5.2 × 10⁻⁸ M. The relative standard deviation (RSD) of 10 consecutive measurements of 8.0 × 10⁻⁶ M bilirubin was 3.0%, while the recoveries of bilirubin in both human serum and urine samples were obtained in the range 94.0–99.5%. The interference study shows that the developed fluorescence based technique is fast, easy to carry out and shows negligible interference. The developed technique was successfully applied for the analysis of bilirubin in human urine and serum samples. All the experimental results and quality parameters confirmed the sensitivity and reproducibility of the proposed technique for bilirubin determination in human urine and serum samples .     

Influence of succinylation of bovine serum albumin on its conformation and bilirubin binding

In order to investigate the role of lysine residues in the interaction of bilirubin with bovine serum albumin, five succinylated preparations of albumin, namely: 23%, 39%, 49%, 55% and 87%, were prepared, and their conformational and bilirubin-binding properties were studied by the techniques of gel filtration, ultraviolet and visible spectroscopy, and fluorescence quenching. Gel filtration experiments performed at pH 7.0 and ionic strengths 0.15 and 1.0 suggested that the albumin molecule undergoes gradual disorganization with increase in succinylation. The Stokes radius and frictional ratio at ionic strength 0.15 increased from 3.7 nm and 1.36, respectively, for the native protein to 6.3 nm and 2.26 for maximally (87%) succinylated albumin. Interestingly, increase in ionic strength to 1.0 caused significant refolding in succinylated preparations as evidenced by a decrease in Stokes radius and frictional ratio (5.3 nm and 1.90 for 87% succinylated albumin). Progressive succinylation produced a steady decline in the intensity of bilirubin-induced fluorescence quenching, and in the visible spectral changes of the bilirubin-albumin complex at 480 nm. Both of these changes had a good correlation with increase in Stokes radius. Increase in ionic strength to 1.0 produced a significant reversal in these properties. From these results we conclude that probably none of the surface lysine residues is involved in bilirubin-albumin interaction, and that if lysine residues are involved in this interaction they must be buried in the protein interior.     

Ultrasmall mixed ferrite colloids as multidimensional magnetic resonance imaging, cell labeling, and cell sorting agents

One area that has been overlooked in the evolution of magnetic nanoparticle technology is the possibility of introducing informational atoms into the iron oxide core of the coated colloid. Introduction of suitable atoms into the iron oxide core offers an opportunity to produce a quantifiable probe, thereby adding one or more dimensions to the magnetic colloid's informational status. Lanthanide-doped iron oxide nanoparticles have been synthesized to introduce informational atoms through the formation of colloidal mixed ferrites. These colloids are designated ultrasmall mixed ferrite iron oxides (USMIOs). USMIOs containing 5 mol % europium exhibit superparamagnetic behavior with an induced magnetization of 56 emu/g Fe at 1.5 T, a powder X-ray diffraction pattern congruent with magnetite, and R1 and R2 relaxivity values of 15.4 (mM s) (-1) and 33.9 (mM s) (-1), respectively, in aqueous solution at 37 degrees C and 0.47 T. USMIO can be detected by five physical methods, combining the magnetic resonance imaging (MRI) qualities of iron with the sensitive and quantitative detection of lanthanide metals by neutron activation analysis (NA), time-resolved fluorescence (TRF), X-ray fluorescence, along with detection by electron microscopy (EM). In addition to quantitative detection using neutron activation analysis, the presence of lanthanides in the iron oxide matrix confers attractive optical properties for long-term multilabeling studies with europium and terbium. These USMIOs offer high photostability, a narrow emission band, and a broad absorption band combining the high sensitivity of time-resolved fluorescence with the high spatial resolution of MRI. USMIO nanoparticles are prepared through modifications of traditional magnetite-based iron oxide colloid synthetic methods. A 5 mol % substitution of ferric iron with trivalent europium yielded a colloid with nearly identical magnetic, physical, and chemical characteristics to its magnetite colloid parent.     

Role of salt bridge(s) in the binding and photoconversion of bilirubin bound to high affinity site on human serum albumin

The role of salt bridge(s) (between epsilon-NH(2) groups of lysine residues of human serum albumin (HSA) and carboxyl groups of bilirubin) in the binding and photoconversion of bilirubin bound to high affinity site on HSA was investigated by covalent modification of approximately 20% internal (buried) lysine residues of HSA with acetic anhydride, succinic anhydride and O-methylisourea and white light irradiation of their complexes with bilirubin. The different HSA derivatives, namely, acetylated HSA (aHSA), succinylated HSA (sHSA) and guanidinated HSA (gHSA), thus obtained, were found to be homogeneous with respect to charge and size and characterized in detail in terms of mean residue ellipticity, Stokes radius, tryptophan fluorescence, bilirubin binding and the photochemistry of their complexes with bilirubin. All the three derivatives retained helical contents and molecular size (Stokes radius) similar to HSA except for sHSA which showed a slight increase in the Stokes radius from 3.56 to 3.64 nm. Further, fluorescence properties of aHSA and sHSA were also found to be different from HSA and gHSA. Based on difference spectral change, fluorescence quenching and fluorescence enhancement results of bilirubin bound to HSA and its derivatives, nearly 46 and 48% reduction in bilirubin binding was observed in the case of aHSA and sHSA, respectively. Both aHSA and sHSA showed a decrease of 8- and 10-fold, respectively, in association constant compared to native HSA. Although the bisignate circular dichroism (CD) spectra of an equimolar (1:1) bilirubin-HSA complex was retained by all three HSA derivatives, the intensity of both positive and negative CD Cotton effects decreased significantly in both aHSA and sHSA. gHSA which retained net charge identical to native HSA, showed little decrease in bilirubin binding and the intensity of bisignate CD Cotton effects. The photochemical reaction of bilirubin bound to aHSA and sHSA produced opposite results to those observed with HSA and gHSA. A brief (2 min) irradiation of an equimolar complex of bilirubin with both aHSA and sHSA accompanied a rapid shift (14-15 nm) in the absorption spectrum of the bound pigment towards the blue region and almost complete elimination of negative CD Cotton effects while only moderately affecting the magnitude of positive CD Cotton effects. On the other hand, similar treatment of the complexes of bilirubin with HSA and gHSA did not show any change in the absorption spectrum, only a slight decrease in the intensity of both positive and negative CD Cotton effects was observed. The fluorescence intensity of bilirubin bound to HSA and gHSA was increased upon irradiation with white light and after 30 min it was nearly twice the value observed at 0 min irradiation. Interestingly, no change in the fluorescence intensity of bilirubin bound either to aHSA or sHSA was observed upon irradiation, even on increasing the duration of irradiation to 1 h. Taken together, the results on fluorescence quenching, fluorescence enhancement, CD spectral changes and visible absorption spectroscopy suggest that salt bridge(s) of the type (-COO(-).(+)H(3)N-) in which the epsilon-NH(2) group(s) contributed by lysine residues, are not only involved in the enantioselective binding of bilirubin but also in the stereospecific photoisomerization of bilirubin bound to a high affinity site on HSA.