Silicon nanoparticles synthesized using a microwave method and used as a label‐free fluorescent probe for detection of VB12

A simple and rapid detection strategy for vitamin B₁₂ (VB₁₂) was established based on label‐free silicon quantum dots (SiQDs); the detection mechanism was additionally investigated. SiQDs were synthesized using a one‐step microwave method, and their fluorescence was stronger than that synthesized using the hydrothermal method. SiQDs fluorescence was quenched using VB₁₂ due to the inner filter effect (IFE), which was demonstrated using ultraviolet (UV) absorption spectra, fluorescence lifetime, transmission electron microscopy and zeta potential analysis. Subsequently, quercetin (Que) and doxorubicin (Dox) with absorption peaks that overlapped the excitation or emission peaks of SiQDs respectively were used as control groups to investigate the quenching mechanism. Results showed that quenching efficiency was related to the level of overlap between the adsorption peak of the quencher and the excitation or emission peaks of SiQDs. A greater level of overlap caused a higher quenching efficiency. Therefore, the sensitive quenching of VB₁₂ for SiQDs was due to the synergistic effect of the synchronous overlap between the absorption peak of VB₁₂ with the excitation and emission peaks of SiQDs. Fluorescence quenching efficiency increased linearly in the 0.5 to 16.0 μmol·L^?1 VB₁₂ concentration range, and the detection limit was 158 nmol·L^?1. In addition, SiQDs were applied to determine VB₁₂ in tablets and human urine samples with satisfactory recoveries ranging from 97.7 to 101.1%.     

Direct and label‐free detection of the human growth hormone in urine by an ultrasensitive bimodal waveguide biosensor

A label‐free interferometric transducer showing a theoretical detection limit for homogeneous sensing of 5 × 10^–8 RIU, being equivalent to a protein mass coverage resolution of 2.8 fg mm^–2, is used to develop a high sensitive biosensor for protein detection. The extreme sensitivity of this transducer combined with a selective bioreceptor layer enables the direct evaluation of the human growth hormone (hGH) in undiluted urine matrix in the 10 pg mL^–1 range.

     

Rapid and label‐free optical detection of individual carbon air pollutant nanoparticulates in biomedical samples

Carbonaceous particle exposure and air pollution in general lead to a multitude of adverse human health effects and pose multiple challenges in terms of exposure, risk and safety assessment. Highly desirable for fast screening are label‐free approaches for detecting these particle types in biological or medical context. We report a powerful approach for detecting carbonaceous particles using photothermal pump‐probe microscopy, which directly probes their strong light absorption. The principle and reliability of this approach is demonstrated by examining 4 different carbon black (CB) species modeling soot with diameters ranging from 13 to 500 nm. Our results show that the proposed approach is applicable to a large number of CB types as well as black carbon. As the particles show a strong absorption over a wide spectral range as compared to other absorbing species, we can image CB particles almost background free. Our pump‐probe approach allows label‐free optical detection and unambiguous localization of CB particles in (bio)fluids and 3D cellular environments. In combination with fluorescence microscopy, this method allows for simultaneous colocalization of CB with different cellular components using fluorophores as shown here for human lung fibroblasts. We further demonstrate the versatility of pump‐probe detection in a flow cell.      

A label‐free DNAzyme‐cleaving fluorescence method for the determination of trace Pb2+ based on catalysis of AuPd nanoalloy on the reduction of rhodamine 6G

The substrate chain of double‐stranded DNA (dsDNA) could be specifically cleaved by Pb²⁺ to release single‐stranded DNA (ssDNA) that adsorbs onto the AuPd nanoalloy (AuPdNP) to form a stable AuPdNP–ssDNA complex, but the dsDNA can not protect AuPdNPs in large AuPdNP aggregates (AuPdNPA) under the action of NaCl. AuPdNP–ssDNA and large AuPdNPA could be separated by centrifugation. On increasing the concentration of Pb²⁺, the amount of released ssDNA increased; AuPdNP–ssDNA increased in the centrifugation solution exhibiting a catalytic effect on the slow reaction of rhodamine 6G (Rh6G) and NaH₂PO₂, which led to fluorescence quenching at 552 nm. The decrease in fluorescence intensity (ΔF) was linear to the concentration of Pb²⁺ within the range 0.33–8.00 nmol/L, with a detection limit of 0.21 nmol/L. The proposed method was applied to detect Pb²⁺ in water samples, with satisfactory results. Copyright © 2014 John Wiley & Sons, Ltd.     

Assessment of reproducibility in depletion and enrichment workflows for plasma proteomics using label‐free quantitative data‐independent LC‐MS

Quantitation in plasma‐based proteomics necessitates the reproducible removal of highly abundant proteins to enable the less abundant proteins to be visible to the mass spectrometer. We have evaluated immunodepletion (proteoprep20) and enrichment (Bio‐Rad beads), as the current predominant approaches. Label‐free analysis offers an opportunity to estimate the effectiveness of this approach without incorporating chemical labels. Human plasma samples were used to quantitatively assess the reproducibility of these two methods using nano‐LC‐data‐independent acquisition MS. We have selected 18 candidate proteins and a comparison of both methodologies showed that both of the methods were reproducible and fell below 20% residual SD. With the same candidate proteins, individual inter‐day variability for the samples was also processed, allowing us to monitor instrument reproducibility. Overall, a total of 131 proteins were identified by both methods with 272 proteins identified by enrichment and 200 identified by immunodepletion. Reproducibility of measurements of the amount of protein in the processed sample for individual proteins is within analytically acceptable standards for both methodologies. This enables both methods to be used for biomarker studies. However, when sample is limited, enrichment is not suitable as larger volumes (>1.0 mL) are required. In experiments where sample is not limited then a greater number of proteins can be reliably identified using enrichment.     

An infrared sensor analysing label‐free the secondary structure of the Abeta peptide in presence of complex fluids

The secondary structure change of the Abeta peptide to beta‐sheet was proposed as an early event in Alzheimer's disease. The transition may be used for diagnostics of this disease in an early state. We present an Attenuated Total Reflection (ATR) sensor modified with a specific antibody to extract minute amounts of Abeta peptide out of a complex fluid. Thereby, the Abeta peptide secondary structure was determined in its physiological aqueous environment by FTIR‐difference‐spectroscopy. The presented results open the door for label‐free Alzheimer diagnostics in cerebrospinal fluid or blood. It can be extended to further neurodegenerative diseases.

An immunologic ATR‐FTIR sensor for Abeta peptide secondary structure analysis in complex fluids is presented.     

Development of a dual‐label time‐resolved fluoroimmunoassay for the detection of α‐fetoprotein and hepatitis B virus surface antigen

Time‐resolved fluorometry of lanthanide chelates is one of the most useful non‐isotopic detection techniques and has been used in numerous applications in biomedical science. We developed a time‐resolved fluoroimmunoassay (TRFIA) to quantify α‐fetoprotein (AFP) and hepatitis B virus surface antigen (HBsAg) in human serum. Based on a two‐site sandwich protocol, monoclonal antibodies (McAbs) against AFP and HBsAg were co‐coated in 96 microtitration wells and tracer McAbs against HBsAg and AFP were labeled with europium (Eu) and samarium (Sm) chelates, respectively. After application of diluted serum samples, Eu³⁺‐ and Sm³⁺‐McAbs were added and fluorescence signals of Sm³⁺ and Eu³⁺ tracers were collected. Detection limits of AFP and HBsAg were 0.09 mIU/L and 0.01 µg/L, respectively. Measurement ranges of AFP‐TRFIA and HBsAg‐TRFIA were 1–1000 mIU/L and 0.2‐150 µg/L, respectively. Intra‐ and inter‐assay coefficients of variation of AFP‐TRFIA were 3.3‐4.1% and 5.7‐7.2% and for HBsAg‐TRFIA were 2.9‐3.9% and 4.9‐6.8%, respectively. Linear correlation of TRFIA and chemiluminescence immunoassay measurements resulted in a correlation coefficient of 0.9949 for AFP and 0.9940 for HBsAg. For the endurance test, Eu‐labeled McAbs were stable for at least one year at ?20°C and the results of the TRFIA with the same reagents were also reproducible after one year. The availability of a highly sensitive, reliable and convenient AFP/HBsAg TRFIA will allow the quantification of both AFP and HBsAg, thereby providing diagnostic value in various clinical conditions and could be applied for clinical use. Copyright © 2012 John Wiley & Sons, Ltd.     

Highly efficient detection of Cu2+ and B4O72− based on a recyclable asymmetric salamo‐based probe in aqueous medium

An asymmetric salamo‐based probe molecule ( H ₂ L ) was synthesized and characterized structurally. When DMF/H₂O (9:1) was used as the solvent, it was shown probe H ₂ L has high sensitivity to Cu²⁺. Using high‐resolution mass spectrometry and theoretical calculation, it was found that probe H ₂ L could form a more stable complex (1:1) with Cu²⁺, the minimum limit of detection (LOD) of H ₂ L for Cu²⁺ was calculated as 9.95 × 10^?8 M. In addition, probe H ₂ L could also be used to identify B₄O₇^2? under the same detection conditions and the minimum LOD of H ₂ L for B₄O₇^2? was calculated as 4.98 × 10^?7 M. At the same time, density functional theory theoretical calculation further proved the flexibility of probe H ₂ L . Through the action of EDTA, probe H ₂ L had a cyclic ability to recognize Cu²⁺, and showed a better response in the physiological pH range; probe H ₂ L had the characteristics of fast recognition speed and high efficiency. In addition, with probe H ₂ L test paper for Cu²⁺ and B₄O₇^2?, the effect was more obvious. Meanwhile, probe H ₂ L can be used to quantitatively detect Cu²⁺ in water samples.     

β‐Hairpin stabilization in a 28‐residue peptide derived from the β‐subunit sequence of human chorionic gonadotropin hormone

The β‐subunit of the human chorionic gonadotropin (hCG) hormone, which is believed to be related to certain types of cancer, contains three hairpin‐like fragments. To investigate the role of β‐hairpin formation in the early stages of the hCGβ folding, a 28‐residue peptide with the sequence RDVRFESIRLPGSPRGVNPVVSYAVALS, corresponding to the H3‐β hairpin fragment (residues 60–87) of the hCGβ subunit, was studied under various conditions using three optical spectroscopic methods: Fourier transform ir spectroscopy, electronic CD, and vibrational CD. Environmental conditions are critical factors for formation of secondary structure in this peptide. TFE : H₂O mixed solvents induced helical formation. Formation of β‐structure in this peptide, which may be related to the native β‐hairpin formation in the intact hormone, was found to be induced only under conditions such as high concentration, high temperature, and the presence of nonmicellar sodium dodecyl sulfate concentrations. These findings support a protein folding mechanism for the hCGβ subunit in which an initial hydrophobic collapse, which increases intermolecular interactions in hCGβ, is needed to induce the H3‐β hairpin formation. © 1999 John Wiley & Sons, Inc. Biopoly 50: 413–423, 1999     

Cautionary note on the use of the B subunit of cholera toxin as a ganglioside GM1 probe: detection of cholera toxin A subunit in B subunit preparations by a sensitive adenylate cyclase assay

The use of the B subunit of cholera toxin, a protein that binds specifically to ganglioside GM1, has provided a new paradigm for studying physiological functions of ganglioside GM1. The B subunit inhibited the growth of rat glioma C6 cells that had been pretreated with ganglioside GM1. In some preparations of the B subunit, the inhibition was independent of adenylate cyclase activation and was due to the binding of the B subunit to ganglioside GM1 inserted onto the cell surface. However, in other preparations of the B subunit, there was an additional inhibitory effect due to small contaminations with the A subunit, which caused increases in intracellular cyclic adenosine monophosphate (cAMP) levels and concomitant growth inhibition. This vanishingly small contamination with the A subunit could not be detected by conventional protein sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis but could be measured utilizing a sensitive adenylate cyclase activation assay. Thus caution must be used to ensure that any biological effects of the B subunit are not due to contaminating A subunit and are due solely to the binding of the B subunit to ganglioside GM1 exposed on the cell surface. This is especially important in cyclic nucleotide-sensitive systems.     

Resonance Rayleigh scattering technique as a detection method for the RP‐HPLC determination of local anaesthetics in human urine

A highly selective and sensitive method of reversed phase high‐performance liquid chromatography (RP‐HPLC) coupled with resonance Rayleigh scattering (RRS) was developed for the determination of procaine, bupivacaine and tetracaine. Separation of three local anaesthetics was achieved at 35 °C on a C₁₈ column. The mobile phase was 30: 70 (v/v) acetonitrile/triethylamine–phosphoric acid buffer (pH 2.9) at flow rate of 0.3 mL/min. The RRS detection was conducted by taking advantage of the strong RRS enhancement of the local anaesthetics with erythrosine reaction in an acidic medium. Under optimum conditions, the limit of detection (S/N = 3) values were in the range of 2.4–11.2 ng/mL. Recoveries from spiked human urine samples were 95.8%–104.5%. The proposed method applied to the determination of local anaesthetics in human urine achieved satisfactory results. In addition, the mechanism of the reaction is fully discussed. Copyright © 2016 John Wiley & Sons, Ltd.