Rutao Liu scite author profile

Bovine serum albumin (BSA) nonspecifically binds to well-dispersed multiwalled carbon nanotubes (MWCNTs), forming a stable bioconjugate. After accounting for the inner filter effect, we found the fluorescence intensity of BSA was quenched by MWCNTs in static mode, which was authenticated by lifetime measurements and Stern-Volmer calculations. The thermodynamic parameters DeltaG(o), DeltaS(o), and DeltaH(o) were -9.67 x 10(3) + 2.48 x 10(3) ln lambda J x mol(-1), 41.0 - 0.828 ln lambda J x mol(-1) x K(-1), and 7.30 x 10(3) + 2.23 x 10(3) ln lambda J x mol(-1) (lambda < 1 x 10(-4)), respectively, which shows a spontaneous and electrostatic interaction. Scatchard analysis and UV-visible results provide statistical data concerning changes in the microenvironment of amide moieties in response to different doses of MWCNTs, revealing different behavior of the BSA molecules. The absorption spectra also show that the tertiary structure of the protein was partially destroyed. The content of secondary structure elements of BSA was changed by the tubes. This work elucidates the interaction mechanism of BSA and MWCNTs from a spectroscopic angle.

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Biomarker detection for disease diagnosis using cost-effective microfluidic platforms

Sanjay

Dou

et al. 2015

Analyst

233

171

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Early and timely detection of disease biomarkers can prevent the spread of infectious diseases, and drastically decrease the death rate of people suffering from different diseases such as cancer and infectious diseases. Because conventional diagnostic methods have limited application in low-resource settings due to the use of bulky and expensive instrumentation, simple and low-cost point-of-care diagnostic devices for timely and early biomarker diagnosis, is the need of the hour, especially in rural areas and developing nations. The microfluidics technology possesses remarkable features for simple, low-cost, and rapid disease diagnosis. There have been significant advances in the development of microfluidic platforms for diseases biomarker detection. This article reviews recent advances in biomarker detection using cost-effective microfluidic devices for disease diagnosis, with the emphasis on infectious disease and cancer diagnosis in low-resource settings. This review first introduces different microfluidic platforms (e.g. polymer and paper-based microfluidics) used for disease diagnosis, with a brief description of their common fabrication techniques. Then, it highlights various detection strategies for disease biomarker detection using microfluidic platforms, including colorimetric, fluorescence, chemiluminescence, electrochemiluminescence (ECL), and electrochemical detection. Finally, it discusses the current limitations of microfluidics devices for disease biomarker detection and the future perspectives.

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Recent progress and perspectives on the toxicity of carbon nanotubes at organism, organ, cell, and biomacromolecule levels

Zhao¹,

Liu²

2012

Environment International

238

157

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Phenotypic Characterization of the Binding of Tetracycline to Human Serum Albumin

2010

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Because of the widely usage of the veterinary drug tetracycline (TC), its residue exist extensively in the environment (e.g., animal food, soils, surface water, and groundwater) and can enter human body, being potential harmful. Human serum albumin (HSA) is a major transporter for endogenous and exogenous compounds in vivo. The aim of this study was to examine the interaction of HSA with TC through spectroscopic and molecular modeling methods. The inner filter effect was eliminated to get accurate binding parameters. The site marker competition experiments revealed that TC binds to site II (subdomain IIIA) of HSA mainly through electrostatic interaction, illustrated by the calculated negative ΔH° and ΔS°. Furthermore, molecular docking was applied to define the specific binding sites, the results of which show that TC mainly interacts with the positively charged amino acid residues Arg 410 and Lys 414 predominately through electrostatic force, in accordance with the conclusion of thermodynamic analysis. The binding of TC can cause conformational and some microenvironmental changes of HSA, revealed by UV-visible absorption, synchronous fluorescence, and circular dichroism (CD) results. The accurate and full basic data in the work is beneficial to clarifying the binding mechanism of TC with HSA in vivo and understanding its effect on protein function during the blood transportation process.

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Characterizing the Interaction between Tartrazine and Two Serum Albumins by a Hybrid Spectroscopic Approach

Pan

Qin

Liu

et al. 2011

J. Agric. Food Chem.

243

128

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Tartrazine is an artificial azo dye commonly used in food products. The present study evaluated the interaction of tartrazine with two serum albumins (SAs), human serum albumin (HSA) and bovine serum albumin (BSA), under physiological conditions by means of fluorescence, three-dimensional fluorescence, UV-vis absorption, and circular dichroism (CD) techniques. The fluorescence data showed that tartrazine could bind to the two SAs to form a complex. The binding process was a spontaneous molecular interaction procedure, in which van der Waals and hydrogen bond interactions played a major role. Additionally, as shown by the UV-vis absorption, three-dimensional fluorescence, and CD results, tartrazine could lead to conformational and some microenvironmental changes of both SAs, which may affect the physiological functions of SAs. The work provides important insight into the mechanism of toxicity of tartrazine in vivo.

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Rutao Liu

New Insights into the Behavior of Bovine Serum Albumin Adsorbed onto Carbon Nanotubes: Comprehensive Spectroscopic Studies

Biomarker detection for disease diagnosis using cost-effective microfluidic platforms

Recent progress and perspectives on the toxicity of carbon nanotubes at organism, organ, cell, and biomacromolecule levels

Phenotypic Characterization of the Binding of Tetracycline to Human Serum Albumin

Characterizing the Interaction between Tartrazine and Two Serum Albumins by a Hybrid Spectroscopic Approach

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