微芯片电泳-紫外检测系统分析蛋白质

微芯片电泳是基于微机电加工技术(MEMS)工艺,在芯片上的微管道中完成电泳检测过程的新型技术.依据紫外吸光度分析法,对蛋白质样品进行电泳分离与紫外检测.实验采用自控接口模板对进样及分离电压进行了系统的程序化控制,从而准确地控制整个电泳、检测流程,提高了微芯片电泳的分离效率和检测灵敏度.实验结果表明,夹流进样的方法可以有效分离混合蛋白,可用于蛋白质样品的分离检测.     

芯片毛细管电泳检测痕量酶活性的初步探讨

微芯片技术是基于微机电加工技术(MEMS)工艺,在芯片上完成电泳检测过程的新型技术．利用自制的微流控芯片及激光诱导荧光系统建立了痕量乳酸脱氢酶(LDH)活性的检测方法．以pH 9.4, 75 mmol/L硼酸为芯片电泳缓冲液,9.73 μmol/L乳酸钙为添加剂,整个电泳过程4 min结束,利用该法测得LDH检测限(S/N=3)为6×10^-3 U/L,出峰时间和峰面积的相对标准偏差分别为5.32%和3.17%,该法操作过程简单,检测灵敏度高,在临床痕量酶检测中具有较好的应用前景．     

实时定量PCR发展概述

实时定量聚合酶链反应(real-time quantitative polymerase chain reaction,简称qPCR)是一种通过荧光信号对PCR进程进行实时监测,并对未知模板进行定量分析的一种核酸定量技术,该技术在临床诊断和生命科学等多领域发挥着重要的作用。现就生物制品领域有着重要应用价值的中介探针聚合酶链反应(mediator probe polymerase chain reaction,MP PCR)和数字聚合酶链反应(digital polymerase chain reaction,dPCR)新技术加以介绍,同时也对qPCR技术中的关键因素(如参考基因选择和核酸质量评价)以及qPCR最低限度标准(minimum information for the publication of real-time quantitative PCR,MIQE)指南作一概述。     

Hepatitis B surface antigen expression in NT-1 cells of tobacco using different expression cassettes

Nicotiana tabacum 1 (NT-1) cells were transformed with four different expression cassettes of hepatitis B surface antigen (HBsAg). The transformed nature of the cells was confirmed by polymerase chain reaction (PCR). The expression levels were assayed by enzyme linked immunosorbent assay (ELISA). The expressivities varied among the different cassettes and the maximum expression of 16.6 ng g⁻¹(f.m.) of cells was noted in pEFEHER transformed cells. Salicylic acid (100 μM) treatment resulted in 1.8 fold increase of expression in pEFEHBS transformed cells. The effect of different concentrations of kanamycin and geneticin was studied on the growth of transformed cells and HBsAg expression. The cell growth was optimum at lower concentrations of the antibiotics, and the maximum expression was noted at 200 mg dm⁻³ of kanamycin.     

实时定量PCR及其在轮状病毒检测中的应用

实时定量PCR(Real-time polymerase chain reaction/quantitative Real-time polymerase chain reaction,Real-time PCR/qPCR)就是在PCR扩增过程中,通过荧光信号对PCR进程进行实时监测。它具有特异性强、灵敏度高、定量准确和快速等优点,在生物医学领域中得到广泛的应用。对实时定量PCR技术的原理和类型,实时定量PCR技术在生物医学领域的应用,尤其在轮状病毒诊断、检测及疫苗研究中的应用及其未来前景进行了综述。     

PCR产物直接测序技术中影响因素的研究

探讨了PCR产物直接测序技术中的影响因素,结果表明：PCR产物特异性是影响其测序成败的关键因素,PCR反应只有产生惟一扩增产物时,其产物才能被用来直接测序;PCR反应体系残留混合物（dNTP、引物和盐离子等）对其测序质量有明显不利影响,PCR产物纯化后其测序质量能明显提高;同时,PCR产物大小不同,其测序反应的模板用量也不同,在一定长度范围内,最适模板用量随PCR产物长度增加而增加。 Factors that Influence Direct Sequencing of PCR Products XU Zu-yuan1,2,BAO Qi-yu1,NIU Yu-xin1 1.Beijing Genomics Institute / Human Genome Center,Institute of Genetics and Developmental Biology,Chinese Academy of Sciences,Beijing 100101,China; 2.Jingzhou Teachers College,Jingzhou,Hubei 434104,China Abstract:Factors influenced direct sequencing of PCR (polymerase chain reaction) products were investigated in this paper.It showed that the specialization of PCR products played a key role in their sequencing reactions and only which could be sequenced directly.It also showed that the PCR reaction residues (including dNTP,primers,and metal ion) affected badly on the sequencing quality,so the purification of PCR products was necessary before sequencing.In addition,the optimum templates amount in sequencing reaction rose with the increasing of their DNA size in a certain range. Key words：polymerase chain reaction(PCR); direct sequencing of PCR product; ABI 377-DNA sequencer; Q20     

一种中间代谢途径代谢通量的定量分析方法

以¹³C标记的碳源,用二维核磁共振技术(¹H-¹³C,HMQC)测定代谢中产生的氨基酸标记模式,研究对中间代谢途径胞内代谢通量进行定量分析的方法.通过开发软件包,改进同位素分布的数学模型,提出了反应映射矩阵(RMM)等概念.由简化算法,提高程序的执行效率,建立了定量分析胞内代谢通量的平台.代谢模型涉及了糖酵解途径、磷酸戊糖途径、三羧酸循环、几种回补反应、发酵途径和氨基酸合成途径.     

Photoinhibition of photosynthesis in water deficit leaves of grapevine (<Emphasis Type="Italic">Vitis vinifera</Emphasis> L.) plants

Photoinhibition under irradiance of 2 000 μmol m⁻² s⁻¹ (HI) was studied in detached control (C) and water deficit (WD) leaves of grapevine (Vitis vinifera L.) plants. The degree of photoinhibition was determined by means of the ratio of variable to maximum chlorophyll (Chl) fluorescence (F_v/F_m) and electron transport measurements. The potential efficiency of photosystem (PS) 2, F_v/F_m, marginally declined under HI in WD-leaves without significant increase of F₀. In contrast, F_v/F_m ratio declined markedly with significant increase of F₀ in C-leaves. In isolated thylakoids, the rate of whole chain and PS2 activity under HI were more decreased in C-than WD-leaves. The artificial exogenous electron donors diphenyl carbazide, NH₂OH, and Mn²⁺ failed to restore the HI-induced loss of PS2 activity in both C-and WD-leaves. Thus HI operates at the acceptor side of PS2 in both leaf types. Quantification of the PS2 reaction centre protein D1 following HI exposure of leaves showed pronounced differences between C-and WD-leaves. The marked loss of PS2 activity under HI of C-leaves was due to the marked loss of D1 protein of the PS2 reaction centre.     

DNA芯片制作原理及其杂交信号检测方法

文章讨论了ＤＮＡ芯片的制作原理和杂交信号的检测方法。依其结构,ＤＮＡ芯片可分为两种形式,ＤＮＡ阵列和寡核苷酸微芯片。ＤＮＡ芯片的制作方法主要有光导原位合成法和自动化点样法。ＤＮＡ芯片与标记的探针或ＤＮＡ样品杂交,并通过探测杂交信号谱型业实现ＤＮＡ序列或基因表达的分析。适应于ＤＮＡ芯片的发展,同时出现了许多新型的杂交信号检测方法。主要有激光荧光扫描显微镜、激光扫描共焦显微镜、结合作用ＣＣＤ相机的荧光     

寡核苷酸阵列比较基因组杂交技术及其应用

阵列-比较基因组杂交技术（array comparative genomic hybridization, array CGH）能在全基因组水平和/或高分辨率基础上检测染色体拷贝数的变化,主要应用于遗传学和肿瘤学研究。Array CGH中微阵列探针通常是PCR扩增的BAC克隆或cDNA分子。最近几年,寡核苷酸阵列比较基因组杂交（oligonucleotide array CGH, oaCGH）逐渐开始应用。oaCGH与BAC array CGH比较,具有操作更简便、探针设计更灵活、分辨率更高等多项优点,预计oaCGH将逐步取代利用BAC克隆片段或cDNA分子的array CGH。oaCGH的应用及其与其它高通量检测技术的结合将促进新的癌症相关基因、肿瘤耐药基因的发现。本文综述了现有主要oaCGH平台在空间分辨率、探针长度、灵敏度、特异性等方面的特点及其应用,概括了oaCGH近年来的进展。     

基因扩增产物的固相杂交-酶联显色方法的建立

建立基于基因扩增技术的简便、快速的病毒核酸定量检测方法．将标记有生物素的寡核苷酸引物所扩增的病毒基因产物,与通过共价键结合在微孔反应板上的特异性探针进行快速杂交,然后通过辣根过氧化物酶标记的抗生物素进行酶联显色,读取光密度值．应用本方法对血清中乙型、丙型肝炎病毒核酸定量检测,灵敏度分别可达１－５拷贝／反应．此方法简便、快速、特异性好、敏感性高、半定量指标客观,可广泛应用于肝炎病毒感染的临床诊断和疗效评价．     

Novel Metal@Carbon Spheres Core–Shell Arrays by Controlled Self‐Assembly of Carbon Nanospheres: A Stable and Flexible Supercapacitor Electrode

The high performance of electrochemical energy‐storage devices relies largely on scrupulous design of nanoarchitectures and smart hybridization of bespoke active materials. Carbon nanopsheres (CNSs) are widely used for energy storage and conversion devices. Here, the directional assembly of CNSs on a vertical‐standing metal scaffold into a core/shell array structure is reported. The method uses a three‐step all‐solution synthesis strategy (chemical bath deposition, electrodeposition, and hydrothermal) and begins from ZnO microrod arrays as a sacrificial template. The self‐assembly of CNSs can be correlated to a simultaneous etching effect to the ZnO accompanying the polymerization of glucose precursor. The Ni microtube/CNSs arrays are selected as an example for structural and electrochemical characterizations. The novel type of metal/CNSs arrays is demonstrated to be a highly stable electrode for supercapacitors. The electrodes of metal/CNSs arrays are assembled into symmetric supercapacitors and exhibit high capacitances of 227 F g^?1 (at 2.5 A g^?1) and an outstanding cycling stability with capacitance retention of 97% after 40 000 cycles.     

Boradiazaindacene dyes for technology of biological microchips

A number of boradiazaindacene dyes containing a carboxyl group separated from a fluorophore by two methylene units were synthesized. The compounds have narrow spectral bands with absorption maxima at 480–530 nm and fluorescence maxima at 500–550 nm. Succinimide esters of these compounds and the corresponding fluorescent-labeled oligonucleotides were also prepared. Boradiazaindacene dyes can be used as fluorescent labels for oligonucleotides for analysis of melting curves of duplexes on microchips either by themselves or in combination with Texas Red. They can also be applied for labeling primers for polymerase chain reaction.     

Biochemistry and structural DNA nanotechnology: an evolving symbiotic relationship

Structural DNA nanotechnology is derived from naturally occurring structures and phenomena in cellular biochemistry. Motifs based on branched DNA molecules are linked together by sticky ends to produce objects, periodic arrays, and nanomechanical devices. The motifs include Holliday junction analogues, double and triple crossover molecules, knots, and parallelograms. Polyhedral catenanes, such as a cube or a truncated octahedron, have been assembled from branched junctions. Stiff motifs have been used to produce periodic arrays, containing topographic features visible in atomic force microscopy; these include deliberately striped patterns and cavities whose sizes can be tuned by design. Deliberately knotted molecules have been assembled. Aperiodic arrangements of DNA tiles can be used to produce assemblies corresponding to logical computation. Both DNA structural transitions and branch migration have been used as the basis for the operation of DNA nanomechanical devices. Structural DNA nanotechnology has been used in a number of applications in biochemistry. An RNA knot has been used to establish the existence of RNA topoisomerase activity. The sequence dependence of crossover isomerization and branch migration at symmetric sites has been established through the use of symmetric immobile junctions. DNA parallelogram arrays have been used to determine the interhelical angles for a variety of DNA branched junctions. The relationship between biochemistry and structural DNA nanotechnology continues to grow.     

Current issues for DNA microarrays: platform comparison, double linear amplification, and universal RNA reference

DNA microarray technology has been widely used to simultaneously determine the expression levels of thousands of genes. A variety of approaches have been used, both in the implementation of this technology and in the analysis of the large amount of expression data. However, several practical issues still have not been resolved in a satisfactory manner, and among the most critical is the lack of agreement in the results obtained in different array platforms. In this study, we present a comparison of several microarray platforms [Affymetrix oligonucleotide arrays, custom complementary DNA (cDNA) arrays, and custom oligo arrays printed with oligonucleotides from three different sources] as well as analysis of various methods used for microarray target preparation and the reference design. The results indicate that the pairwise correlations of expression levels between platforms are relative low overall but that the log ratios of the highly expressed genes are strongly correlated, especially between Affymetrix and cDNA arrays. The microarray measurements were compared with quantitative real-time-polymerase chain reaction (QRT-PCR) results for 23 genes, and the varying degrees of agreement for each platform were characterized. We have also developed and tested a double amplification method which allows the use of smaller amounts of starting material. The added round of amplification produced reproducible results as compared to the arrays hybridized with single round amplified targets. Finally, the reliability of using a universal RNA reference for two-channel microarrays was tested and the results suggest that comparisons of multiple experimental conditions using the same control can be accurate.     

New techniques for physical mapping of the human genome.

We describe improvements in techniques and strategies used for making maps of the human genome. The methods currently used are changing and evolving rapidly. Today's techniques can produce ordered arrays of DNA fragments and overlapping sets of DNA clones covering extensive genomic regions, but they are relatively slow and tedious. Methods under development will speed the process considerably. New developments include a range of applications of the polymerase chain reaction, enhanced procedures for high resolution in situ hybridization, and improved methods for generating, manipulating, and cloning large DNA fragments. More detailed genetic and physical maps will be useful for finding genes, including those associated with human diseases, long before the complete DNA sequence of the human genome is available.     

Protein microdeposition using a conventional ink-jet printer

Many recent bioanalytical systems based on immunologic and hybridization reactions in a mono- or bidimensional microarray format require technology that can produce arrays of spots containing biospecific molecules. Some microarray deposition instruments are commercially available, and other devices have been described in recent papers. We describe a system obtained by adapting a commercial ink-jet printer and used to produce mono- and bidimensional arrays of spots containing horseradish peroxidase on cellulose paper. In a few minutes, it was possible to obtain bidimensional arrays containing several thousands of spots with a diameter as low as 0.2 mm, with each of which requiring only a few nanoliters of the enzyme deposition solution. The quantity of enzyme in each spot was evaluated with a chemiluminescent reaction and a charge-coupled device-based, low-light imaging luminograph. The chemiluminescence measurements revealed that the reproducibility of the enzyme deposition was satisfactory for analytical purposes, with the variation coefficients being lower than 10% in almost all cases.     

Universal DNA microarray method for multiplex detection of low abundance point mutations.

Cancers arise from the accumulation of multiple mutations in genes regulating cellular growth and differentiation. Identification of such mutations in numerous genes represents a significant challenge in genetic analysis, particularly when the majority of DNA in a tumor sample is from wild-type stroma. To overcome these difficulties, we have developed a new type of DNA microchip that combines polymerase chain reaction/ligase detection reaction (PCR/LDR) with "zip-code" hybridization. Suitably designed allele-specific LDR primers become covalently ligated to adjacent fluorescently labeled primers if and only if a mutation is present. The allele-specific LDR primers contain on their 5'-ends "zip-code complements" that are used to direct LDR products to specific zip-code addresses attached covalently to a three-dimensional gel-matrix array. Since zip-codes have no homology to either the target sequence or to other sequences in the genome, false signals due to mismatch hybridizations are not detected. The zip-code sequences remain constant and their complements can be appended to any set of LDR primers, making our zip-code arrays universal. Using the K- ras gene as a model system, multiplex PCR/LDR followed by hybridization to prototype 3x3 zip-code arrays correctly identified all mutations in tumor and cell line DNA. Mutations present at less than one per cent of the wild-type DNA level could be distinguished. Universal arrays may be used to rapidly detect low abundance mutations in any gene of interest.