焦测序技术的研究进展

焦测序技术是一种实时DNA测序技术.它在DNA聚合酶、三磷酸腺苷硫酸化酶、荧光素酶和三磷酸腺苷双磷酸酶4种酶的协同作用下,将焦磷酸转化为等量的荧光信号,通过荧光信号的高低实时检测待测序列,操作简便,可实现高通量、自动化测定,检测不需要电泳,不需要对样品标记和染色,结果准确可靠重复性好.本文综述了焦测序技术的基本原理、历史及其在测序模板制备技术、反应体系和检测仪器三个方面的最新进展,并重点介绍制备单链的Late-PCR技术、高灵敏度反应体系的获得以及454公司超高通量测序技术,并对焦测序技术的发展做了展望.     

新一代测序技术的研究进展

大规模DNA测序技术是揭秘人类和其它生物遗传密码的重要技术,在分子生物学和基础医学领域有广泛应用。第二代测序技术的出现使DNA测序的通量大幅提高,测序的成本大幅下降,原来只有在大型测序中心才能完成的测序任务现在已经可以在更多的实验室展开。但是,早期的第二代测序技术仍然存在诸如文库构建过程复杂、测序成本依然较高等缺点。为了克服上述缺点,近三年发展了几种新的第二代和第三代测序技术,这些技术不仅继承了早期第二代测序技术通量高的优点,而且在文库构建等方面取得了重要突破,进一步简化了测序操作,降低了测序成本,缩短了测序时间。本文就几种最新的大规模测序技术的原理、特点与发展趋势进行简要介绍。     

微流控与细胞迁移技术的研究进展

细胞迁移在多种生理、病理过程中扮演着重要角色。在细胞迁移研究中,琼脂糖平板法、transwell小室法等因操作简单、重现性好被广泛运用于细胞迁移的体外建模。但传统方法大多是检测单因素条件下的细胞迁移情况,却忽略了血流这一重要因素对细胞迁移的影响。微流控芯片的出现不仅解决了上述难题,并能保证迁移试验在多参数条件下一步到位的完成并及进行实时观测。因此,微流控芯片将带来一场细胞迁移技术及相关领域的革命。对近10年微流控技术在细胞迁移研究中运用进行了总结。     

牛全基因组高通量测序技术研究进展

现代科技迅速发展的今天,无疑是分子生物学的世界。基因组测序是对生物的遗传结构进行分析的一种技术。作为一项尤为重要的生物技术。在近几年来得到了迅猛的发展以及应用,并取得了跨越性的进展,在很多领域取得了革命性的成就。无论是在人类疾病的防治,还是在畜牧遗传育种发面都发挥着重要的作用。本综述主要介绍了第一代测序技术、第二代测序技术以及第三代测序技术的原理,并对三者的优缺点进行了比较说明,还分别阐述了全基因组高通量技术在肉牛的起源、遗传育种与优良性状的选育和奶牛的疾病防治、生产性能的提高等方面的研究进展,对当下的高通量测序技术存在的问题进行了讨论,并对其未来进行了展望。     

荧光原位杂交技术的研究进展

荧光原位杂交(FISH)是在染色体、间期细胞核和DNA纤维上进行DNA序列定位的一种有效手段。近年来,围绕提高检测的分辨率和灵敏性,不断将免疫染色、量子点和微流控芯片等物理化学技术引入到荧光原位杂交中,促进了它的快速发展。本文主要综述了荧光原位杂交的基本原理和发展历程,重点介绍了免疫染色-荧光原位杂交(immuno-FISH)、量子点-荧光原位杂交(QD-FISH)和微流控芯片-荧光原位杂交(FISH on microchip)等多种新技术及其检测特点,如快速、灵敏、动态、多样化等。随着荧光原位杂交技术的不断完善与发展,将在细胞遗传学、表观遗传学及分子生物学等领域发挥更加重要的作用。     

基于环介导等温扩增技术的微流控芯片在病原菌检测方面的研究进展

环介导等温扩增(LAMP)技术是一种新兴的核酸恒温扩增技术,与微流控芯片技术相结合,可实现对病原菌的快速检测,具有特异性强、灵敏度高、操作简单等优点。本文根据不同终产物的检测方法对目前检测病原菌的相关微流控LAMP芯片进行了分类与介绍,并对技术的改进和存在的问题进行了分析,以期为后续的相关研究提供参考。     

微流控芯片分析技术在生化研究中的应用进展

综述了微流控芯片分析技术在生物和化学领域中进展,主要从药物筛选、PCR、细胞研究和微流控芯片电泳4个方面总结目前的进展。     

细胞融合技术

细胞融合是生物工程研究的重要内容和基本技术,综述了细胞融合技术中的常用方法：细胞融合仙台病毒（HVI）诱导法、细胞融合PEG（聚乙二醇）诱导法、细胞融合电场诱导法、细胞融合激光诱导法;以及最新研究进展：基于微流控芯片的细胞融合技术、高通量细胞融合芯片.并对它们的优缺点进行简要的评述.     

基于微流控芯片的核酸等温扩增技术研究进展

核酸等温扩增技术是一种在恒温体系内对核酸进行高效扩增的分子扩增技术,它能够在短时间内实现目的基因的指数增长.微流控芯片(microfluidic chip)技术是把研究样品制备、核酸富集、纯化和检测等多个操作步骤集成到一块“微型化”的芯片上,经自动化处理,得出实验结果,即“样品进,结果出”.将核酸等温扩增技术与微流控芯...     

焦磷酸测序测定SNP的常见问题与解决方法

目的：探讨焦磷酸测序技术对单核苷酸多态性分型因测序图谱中存在的一些典型问题而导致分型结果不准确的解决方法。方法：以VKORC1基因1639 G〉A位点、CYP2C19基因636 G〉A位点及UGT1A1基因TA重复序列（TA）6〉（TA）7的多态性检测为例,分别采用优化PCR条件、改变测序时dNTP的加入顺序以及设立外标校正的方法来解决上述问题,从而提高焦测序对SNP分型的准确性。结果：通过升高PCR退火温度,可以显著提高VKORC1基因的扩增特异性,降低了测序图谱中非特异性信号峰强度;通过优化测序时dNTP的加入顺序,CYP2C19基因636 G〉A位点的准确分型结果可通过观察测序图谱中相关信号峰的有无而简单获得,避免了比较信号峰的相对强度;通过比较待测样本与已知基因型的外标样本的测序图谱来确定待测样本的基因型,提高了对UGT1A1基因TA重复序列（TA）6〉（TA）7多态性的分型准确性。结论：本文针对焦测序在测定SNP时的常见问题所提出的相应解决方法不仅简单、经济有效,而且在临床应用方面具有可靠性。     

焦磷酸测序测定SNP的常见问题与解决方法

目的:探讨焦磷酸测序技术对单核苷酸多态性分型因测序图谱中存在的一些典型问题而导致分型结果不准确的解决方法。方法:以VKORC1基因1639 GA位点、CYP2C19基因636 GA位点及UGT1A1基因TA重复序列(TA)6(TA)7的多态性检测为例,分别采用优化PCR条件、改变测序时dNTP的加入顺序以及设立外标校正的方法来解决上述问题,从而提高焦测序对SNP分型的准确性。结果:通过升高PCR退火温度,可以显著提高VKORC1基因的扩增特异性,降低了测序图谱中非特异性信号峰强度;通过优化测序时dNTP的加入顺序,CYP2C19基因636 GA位点的准确分型结果可通过观察测序图谱中相关信号峰的有无而简单获得,避免了比较信号峰的相对强度;通过比较待测样本与已知基因型的外标样本的测序图谱来确定待测样本的基因型,提高了对UGT1A1基因TA重复序列(TA)6(TA)7多态性的分型准确性。结论:本文针对焦测序在测定SNP时的常见问题所提出的相应解决方法不仅简单、经济有效,而且在临床应用方面具有可靠性。     

Improvements in Pyrosequencing technology by employing Sequenase polymerase

Pyrosequencing is a DNA sequencing technique based on the bioluminometric detection of inorganic pyrophosphate, which is released when nucleotides are incorporated into a target DNA. Since the technique is based on an enzymatic cascade, the choice of enzymes is a critical factor for efficient performance of the sequencing reaction. In this study we have analyzed the performance of an alternative DNA polymerase, Sequenase, on the sequencing performance of the Pyrosequencing technology. Compared to the Klenow fragment of DNA polymerase I, Sequenase could read through homopolymeric regions with more than five T bases. In addition, Sequenase reduces remarkably interference from primer-dimers and loop structures that give rise to false sequence signals. By using Sequenase, synchronized extensions and longer reads can be obtained on challenging templates, thereby opening new avenues for applications of Pyrosequencing technology.     

Sanger和Pyrosequencing测序法分析健康成人口腔菌群

目的 对比Sanger和Pyrosequencing测序法分析健康人口腔菌群组成。方法 收集6例健康成人唾液、舌背、黏膜、龈上及龈下菌斑并构建16S rRNA基因文库,分别用Sanger和Pyrosequencing测序法分析。结果 Sanger测序所得已知的序列有5,794条（占6,535总序列数88.7%）、75个属,396个序列划分操作分类单元（operational taxonomic units,OTUs,占总OTUs的61.4%）。Pyrosequencing测序所得已知的序列有10,771条（占11,103总序列数97.0%）、66个属,322个OTUs（占总OTUs的68.0%）。Sanger和Pyrosequencing测序法所得口腔菌群在门、属的水平分布趋势基本一致,但在种的水平分布差异显著。Sanger和Pyrosequencing测序法构建的口腔菌群文库均匀度值分别为0.016和0.007,说明Pyrosequencing分析口腔菌群物种数量分布比Sanger测序方法的文库均匀性稍差,但优势种更显著。结论 Pyrosequencing测序时所构建基因文库能代表口腔菌群的多样性且经济、省时,可以应用于口腔细菌物种的分析。     

Analysis of read length limiting factors in Pyrosequencing chemistry

Pyrosequencing is a bioluminometric DNA sequencing technique that measures the release of pyrophosphate during DNA synthesis. The amount of pyrophosphate is proportionally converted into visible light by a cascade of enzymatic reactions. Pyrosequencing has heretofore been used for generating short sequence reads (1-100 nucleotides) because certain factors limit the system's ability to perform longer reads accurately. In this study, we have characterized the main read length limiting factors in both three-enzyme and four-enzyme Pyrosequencing systems. A new simulation model was developed to simulate the read length of both systems based on the inhibitory factors in the chemical equations governing each enzymatic cascade. Our results indicate that nonsynchronized extension limits the obtained read length, albeit to a different extent for each system. In the four-enzyme system, nonsynchronized extension due mainly to a decrease in apyrase's efficiency in degrading excess nucleotides proves to be the main limiting factor of read length. Replacing apyrase with a washing step for removal of excess nucleotide proves to be essential in improving the read length of Pyrosequencing. The main limiting factor of the three-enzyme system is shown to be loss of DNA fragments during the washing step. If this loss is minimized to 0.1% per washing cycle, the read length of Pyrosequencing would be well beyond 300 bases.     

Genetical identification of Akebia and Aristolochia species by using Pyrosequencing

This study was performed to determine if Akebia and Aristolochia species (Akebia quinata Decaisne and Aristolochia manshuriensis Kom.) could be identified by genetic analysis of Pyrosequencing method, which is used to assess genetic variation. The Pyrosequencing results of Akebia and Aristolochia species showed different patterns. The Pyrosequencing analysis of A. quinata Decaisne was very different compared with that of A. manshuriensis Kom. Pyrosequencing analyses might be able to identify the Akebia and Aristolochia species.     

High throughput detection of small genomic insertions or deletions by Pyrosequencing

Small insertions or deletions of nucleotides are common polymorphic variations in the human genome and can result in a predisposition to disease. However, high throughput methods for detecting these variations are limited. This report describes a method to detect this variation based on sequencing the boundaries of nucleotide alterations using the Pyrosequencing technique. This method can optimally detect up to 100 base pair nucleotide insertions and deletions, and also complicated genomic rearrangements.     

Pyrosequencing analysis of bacterial communities in drinking water biofilters receiving influents of different types

Biological activated carbon (BAC) filters are commonly used in the world for improvement of drinking water quality. The indigenous microbiota in BAC filters can play a crucial role in reduction or biotransformation of contaminants. Molecular analysis can enhance our understanding of ecological functions of the microbial communities in drinking water BAC filters. In this study, three laboratory-scale drinking water BAC filters receiving influents of different types were constructed. Differences of bacterial communities in the three BAC filters were characterized using 454 pyrosequencing analysis. Pyrosequencing analysis illustrated the usefulness in elucidating the bacterial community structure in drinking water biofilter. High bacterial diversity in granular activated carbon (GAC) samples from each BAC biofilter was observed. Proteobacteria was the largest bacterial phylum in each GAC sample, with a marked shift of the proportions of Alpha-, Beta-, and Gammaproteobacteria. The levels of dissolved organic carbon and ammonia nitrogen in the influents could affect the bacterial diversity and community composition in the BAC biofilters. This work might add some new insights into microbial community and its influential factors in drinking water biofilters.     

乙肝治疗耐药基因突变的焦磷酸测序技术诊断

目的：建立焦磷酸测序技术检测拉米夫定和阿德福韦酯治疗乙肝所致乙肝病毒基因耐药突变的定量检测方法,为临床乙肝耐药诊断和治疗提供依据。方法：针对乙肝病毒DNA聚合酶基因序列上4个常见基因突变位点的6种突变形式,分别克隆构建野生型和突变型质粒作为标准品,应用生物信息学手段设计目标基因通用PCR引物和各突变点的焦磷酸测序引物,建立焦磷酸测序的突变检测方法。对接受拉米夫定、阿德福韦酯治疗的慢性乙型肝炎患者血清标本进行检测。结果：构建了乙肝病毒四种常见耐药性突变的标准株和变异株克隆,建立了分别或同时检测拉米夫定、阿德福韦酯耐药突变的焦磷酸测序方法,对68例临床耐药或疑似耐药的患者血清标本进行检测,双脱氧测序验证,检出拉米夫定耐药突变32例,阿德福韦酯耐药突变5例,其中焦磷酸测序检出20例为混合突变,而双脱氧测序显示为6例。结论：成功建立了焦磷酸测序定量检测拉米夫定、阿德福韦酯耐药基因突变的方法,构建了乙肝病毒耐药基因突变的标准质粒,为临床动态监测乙肝病毒变异病毒株、指导合理用药奠定了基础。