Investigation of Interactions between Two Monoclonal Antibodies and SARS Virus with a Label-Free Protein Array

The investigation of interactions between two kinds of monoclonal antibodies and SARS virus with a label-free protein array technique were presented in this paper. The performance consists of three parts: a surface modification for ligand immobilization/surface, a protein array fabrication with an integrated microfluidic system for patterning, packaging and liquid handling, and a protein array reader of imaging ellipsometer. This revealed the technique could be used as an immunoassay for qualitative and quantitative detection as wen as kinetic analysis of biomolecule interaction.

Determination of SARS-coronavirus by a microfluidic chip system

We have developed a new experimental system based on a microfluidic chip to determine severe acute respiratory syndrome coronavirus (SARS-Cov). The system includes a laser-induced fluorescence microfluidic chip analyzer, a glass microchip for both polymerase chain reaction (PCR) and capillary electrophoresis, a chip thermal cycler based on dual Peltier thermoelectric elements, a reverse transcription-polymerase chain reaction (RT-PCR) SARS diagnostic kit, and a DNA electrophoretic sizing kit. The system allows efficient cDNA amplification of SARS-CoV followed by electrophoretic sizing and detection on the same chip. To enhance the reliability of RT-PCR on SARS-CoV detection, duplex PCR was developed on the microchip. The assay was carried out on a home-made microfluidic chip system. The positive and the negative control were cDNA fragments of SARS-CoV and parainfluenza virus, respectively. The test results showed that 17 positive samples were obtained among 18 samples of nasopharyngeal swabs from clinically diagnosed SARS patients. However, 12 positive results from the same 18 samples were obtained by the conventional RT-PCR with agarose gel electrophoresis detection. The SARS virus species can be analyzed with high positive rate and rapidity on the microfluidic chip system.

Studies on the Interaction between Single-strand Oligonucleotide and Ginsenosides by Electrospray Ionization Mass Spectrometry

Oligonucleotide from SARS virus was selected as a target molecule in the paper. The noncovalent complexes of ginsenosides with the target molecule were investigated by electrospray ionization mass spectrometry. The effects of experimental conditions were examined firstly on the formation of noncovalent complexes. Based on the optimized experimental conditions, the interaction of different ginsenosides with the target molecule was researched, finding that the interaction orders are relative with the structure of aglycons, the length and terminal sugar types of saccharide chains in the ginsenosides. There are certain rules for the interaction between the ginsenosides and DNA target molecule. For different type ginsenosides, the interaction intensity takes the orders 20-S-protopanaxatriol > 20-S-protopanaxadiol, and panaxatriol ginsenosides > panaxadiol ginsenosides. For the ginsenosides with the same type aglycone, tri-saccharide chain > di-saccharide chain > tetra-saccharide chain and single-saccharide chain > panaxatriol. For the ginsenosides with the same tetra-saccharide chain, the ginsenosides with smaller molecule masses > the ginsenosides with larger molecule masses.

Moderate mutation rate in the SARS coronavirus genome and its implications

Background: The outbreak of severe acute respiratory syndrome (SARS) caused a severe global epidemic in 2003 which led to hundreds of deaths and many thousands of hospitalizations. The virus causing SARS was identified as a novel coronavirus (SARS-CoV) an

Polymorphisms in the C-type lectin genes cluster in chromosome 19 and predisposition to severe acute respiratory syndrome coronavirus (SARS-CoV) infection

Background: Polymorphisms of CLEC4M have been associated with predisposition for infection by the severe acute respiratory syndrome coronavirus (SARS-CoV). DC-SIGNR, a C-type lectin encoded by CLEC4M, is a receptor for the virus. A variable number tandem

SARS流行预测分析

表面上突如其来的SARS本质上却有极规律的内在发展演化机制,遵从初始缓慢增长、加速、减速和稳定终止四个阶段总体道路,自然和社会生活领域众多事件演化都符合这一规律,因而可以运用广义的Logistic生长模型进行描述.基于先期流行的广东SARS感染病例数据,以及尚未结束的北京、全国2003年SARS流行统计数据,借助于最优化分析技术,运用广义的Logistic生长模型对该事件演化特征参量进行了辨识;在此基础上,又借助于广义生长模型的特例--Gompertz函数进行了演化过程的预测,并与其他生长模型结果进行了比较.研究表明,生长模型模拟结果均与实际数据有很好的一致性,可以用来预测事件的发生演化过程,此次SARS事件堪称生长模型的经典实例.

抗SARS人源单链抗体H12的表达及复性

从SARS免疫抗体库获得的一株抗SARS-CoV人源单链抗体H12,亟待鉴定.为了快速制备大量具有生物活性的单链抗体H12,构建了pET28a-H12原核高表达载体,表达量占菌体总蛋白质30%以上.采用稀释复性和分子筛柱复性两种方法对包涵体蛋白进行复性与纯化,结果显示两种方法都能使得单链抗体复性.与稀释复性法相比,柱复性效果更好,其抗原结合活性是稀释复性法的1.51倍.柱复性后的单链抗体亲和力测定的解离常数Kd为73.5nmol/mL.为进一步研究单链抗体H12的功能奠定了基础.

Phage M13Ko7 Detection With Biosensor Based On Imaging Ellipsometry And Afm Microscopic Confirmation

A rapid detection and identification of pathogens is important for minimizing transfer and spread of disease. A label-free and multiplex biosensor based on imaging ellipsometry (BIE) had been developed for the detection of phage M13KO7. The surface of silicon wafer is modified with aldehyde, and proteins can be patterned homogeneously and simultaneously on the surface of silicon wafer in an array format by a microfluidic system. Avidin is immobilized on the surface for biotin-anti-M13 immobilization by means of interaction between avidin and biotin, which will serve as ligand against phage M13KO7. Phages M13KO7 are specifically captured by the ligand when phage M13KO7 solution passes over the surface, resulting in a significant increase of mass surface concentration of the anti-M13 binding phage M13KO7 layer, which could be detected by imaging ellipsometry with a sensitivity of 10(9) pfu/ml. Moreover, atomic force microscopy is also used to confirm the fact that phage M13KO7 has been directly captured by ligands on the surface. It indicates that BIE is competent for direct detection of phage M13KO7 and has potential in the field of virus detection. (C) 2008 Elsevier B.V. All rights reserved.

Detection of hepatitis B virus markers using a biosensor based on imaging ellipsometry

A biosensor based on imaging ellipsometry (BIE) has been developed and validated in 169 patients for detecting five markers of hepatitis B virus (HBV) infection. The methodology has been established to pave the way for clinical diagnosis, including ligand screening, determination of the sensitivity, set-up of cut-off values (CoVs) and comparison with other clinical methods. A matrix assay method was established for ligand screening. The CoVs of HBV markers were derived with the help of receiver operating characteristic curves. Enzyme-linked immunosorbent assay (ELISA) was the reference method. Ligands with high bioactivity were selected and sensitivities of 1 ng/mL and 1 IU/mL for hepatitis B surface antigen (HBsAg) and surface antibody (anti-HBs) were obtained respectively. The CoVs of HBsAg, anti-HBs, hepatitis B e antigen, hepatitis B e antibody and core antibody were as follows: 15%, 18%, 15%, 20% and 15%, respectively, which were the percentages over the values of corresponding ligand controls. BIE can simultaneously detect up to five markers within 1 h with results in acceptable agreement with ELISA, and thus shows a potential for diagnosing hepatitis B with high throughput.

SARS 及其它冠状病毒基因组组织结构和序列的初步比较分析

:严重急性呼吸综合症(Severe acute respiratory sydrome , SARS) 是一种全新的传染性疾病,它可能主 要是由冠状病毒的一个变种引起的. 本文比较SARS 及其它冠状病毒基因组组织结构和序列变异的情况,初步 的结果表明: ①尽管SARS 病毒与冠状病毒属的另外6 种病毒基因组序列上有较大的差异,但是它们具有较相 似的基因组组织结构; ②SARS 病毒与牛冠状病毒、鼠肝炎病毒具有较近的系统发育关系; ③虽然SARS 病毒扩 散的时间极短,但来自不同地区SARS 病毒的DNA 序列却存在一些突变,且这些突变又大多是改变氨基酸序 列的非同义突变.

Evolutionary implications of avian infectious Bronchitis Virus (AIBV) analysis

For developing efficient vaccines, it is essential to identify which amino acid changes are most important to the survival of the virus. We investigate the amino acid substitution features in the Avian Infectious Bronchitis Virus (AIBV) antigenic domain o