纳米金增强复杂体系中PCR扩增低拷贝基因的反应特异性初步研究

目的：利用纳米金颗粒提高复杂体系基因组低拷贝基因PCR扩增的反应特异性。方法：首先,模拟复杂基因组扩增模式体系,以接近单拷贝的λDNA为模板,在PCR过程中加入纳米金颗粒,设计优化实验,以便模拟建立复杂基因组低拷贝目的基因PCR扩增的模式体系。随后,扩增人类基因组的疾病相关的低拷贝基因模板（如人基因组肿瘤坏死因子基因外显子1的380bp）,以检验纳米金优化增强PCR反应特异性的实际效果。结果：在复杂体系基因组的低拷贝基因PCR扩增中,纳米金颗粒能够较好地增强其PCR反应的特异性。结论：初步表明基于纳米金的纳米粒子PCR方法可以对复杂的实际基因组体系低拷贝基因的PCR扩增起到优化作用,这对于PCR反应优化方法的改进、推广具有重要的参考价值。     

肠原发性非何杰金淋巴瘤与结核杆菌感染

目的 探讨肠原发性非何杰金淋巴瘤（PINHL）与结核杆菌感染的关系。方法 采用聚合酶链反应（PCR）技术对20例手术切除的PINHL的瘤组织的瘤旁粘膜组织进行结核杆菌DNA（TB－DNA）检测,同时回顾临床资料,结果 20％的PINHL瘤组织和30％的瘤旁粘膜组织中检出了TB－DNA,且发现TB－DNA阳性病例多是B细胞性PINHL,发病部位多靠近回盲部。结论 结核杆菌感染与PINHL之间可能存在特殊相关性。     

DNA-金纳米粒子网状结构的合成及在癌胚抗原检测中的初步应用

一种DNA-金纳米粒子导电复合物被成功的制备并应用于癌胚抗原（CEA）的早期检测中。该导电复合物网状结构的制备主要基于DNA中呈负电性的磷酸骨架与带正电荷的金纳米粒子之间的静电自组装技术。测试结果显示,该纳米复合物可以很好的检测癌胚抗原,且检测浓度达到了5ng／mL,从而为癌症的早期检测奠定了基础。     

超嗜热古菌Thermococcus eurythermalis A501编码B家族DNA聚合酶的生化特性及PCR应用

DNA聚合酶广泛应用于PCR技术,在生命科学研究及相关领域发挥重要作用。但目前商业化DNA聚合酶仍不能完全满足科研需要,有必要寻求高性能DNA聚合酶。文中克隆表达了超嗜热古菌（Thermococcus eurythermalis）A501来源的B家族DNA聚合酶基因（NCBI数据库基因登录号为TEU＿RS04875）、表征该重组蛋白的生化特性、评价了其PCR应用。将删除intein蛋白序列的DNA聚合酶（Teu-PolB）进行体外重组表达,经亲和层析和离子交换层析纯化获得Teu-PolB蛋白;利用5′端带荧光标记的寡核苷酸作为底物,用尿素变性聚丙烯酰胺凝胶电泳鉴定Teu-PolB的生化特性;以噬菌体λDNA基因组为模板,探究Teu-PolB的PCR应用。结果显示,Teu-PolB具有DNA聚合酶活性和3′→5′核酸外切酶活性,该酶在98℃下的半衰期约为2 h,热稳定性高。使用Teu-PolB进行PCR扩增,最适PCR缓冲液为50 mmol/L Tris-HCl pH 8.0,2.5 mmol/L MgCl₂,60 mmol/L KCl,10 mmol/L （NH<...     

PCR产物末端性质的分析研究

利用PCR、UT-PCR、克隆及测序等技术,对强直性肌营养不良基因（MT-PK）3′-非翻译区分别用Taq,Taq＋Pwo DNA聚合酶进行了扩增、克隆和测序,研究了PCR产物末端组成情况,并比较了上述两种DNA聚合酶对PCR产物末端的影响.结果在用Taq DNA聚合酶扩增的PCR产物主要得到3′端突出1个A（占67.3％,35/52）;在Taq＋Pwo DNA聚合酶扩增的PCR产物末端中得到3′端+A的仅占17.4％,而－1的占34.8％,与前者显著不同.表明PCR扩增产物的末端是复杂多样的.     

抗体和寡核苷酸双标记纳米金生物探针的制备及性能分析

基于纳米金粒子与抗体静电吸附作用,与硫醇修饰的寡核苷酸共价结合,建立一种新的双标记纳米金生物探针的制备方法.通过透射电镜（TEM）、紫外光谱、斑点免疫金渗滤法、免疫金银染色光镜观察法、荧光标记法等检测探针表征,及表面抗体活性情况和寡核苷酸的覆盖率,同时采用变性聚丙烯酰胺凝胶电泳（PAGE）检测寡核苷酸的存在.结果表明,纳米金粒子同时连接抗体和寡核苷酸后生物性能良好,且每个纳米金粒子（10±3）nm表面可覆盖寡核苷酸(92±20)条,双标记纳米金生物探针的制备具有简捷、稳定的特点.可作为一种新型探针应用于超微量蛋白质检测.     

纳米粒子PCR研究进展

纳米粒子PCR作为纳米技术与生命科学交叉的成果备受关注,对于推动分子生物学技术发展具有重要的意义。详细介绍了纳米粒子PCR的最新研究进展、作用机理,以及纳米粒子PCR应用的具体方面。     

念珠菌DNA同源性研究的方法及应用

念珠菌感染在临床的患病率和致死率都很高,研究念珠菌同源性有利于了解念珠菌的流行病学特点,为临床诊断和治疗提供帮助,本文就研究念珠菌同源性常用的方法：随机扩增多态性DNA（random amplified polymorphic DNA,RAPD）,脉冲场凝胶电泳（pulsed-field gel electrophoresis,PFGE）,聚合酶链反应-单链构象多态性（PCR single—strand conformational polymorphism,PCR—SSCP）,聚合酶链反应-限制性片段长度多态性（PCR restriction fragment length polymorphism,PCR—RFLP）的原理、应用作一综述。     

DNA指纹技术在污染土壤生态毒理诊断中的应用

生物标记物能在细咆或分子水平上指示暴露．效应关系,是进行污染土壤生态毒理诊断的主要技术手段之一。随着分子生物学技术的飞速发展,出现了一系列以聚合酶链式反应为基础的、在分子水平上检测污染物质导致的生物体DNA损伤的DNA指纹技术。DNA指纹技术的主要类型有：随机扩增多态性DNA（RAPD）、聚合酶链式反应．单链构象多态性（PCR-SSCP）、扩增片段长度多态性（AFLP）、任意引物聚合酶链式反应（AP—PCR）、差异显示反转录聚合酶链式反应（DDRT）、短DNA重复序列（SSR）及限制片段长度多态性（RFLP）等。这些技术与检测基因突变、染色体畸变和损伤为主的一系列经典研究方法如彗星分析、微核实验等相比具有简便、快速、灵敏等优点。本文着重介绍了随机扩增多态性DNA、聚合酶链式反应．单链构象多态性、扩增片段长度多态性3种重要的DNA指纹技术在污染土壤诊断中的应用。     

超快脉冲控制PCR（upPCR）技术及应用

在精准医疗、个性化医疗的大背景下,分子诊断在病原体检测、肿瘤诊断、优生优育、环境保护、食品安全等领域的应用越来越广泛,并逐渐向操作简单、快速准确、低成本、适用于基层及家庭使用的分子即时检测（point-of-care testing,POCT）方向发展。超快脉冲控制PCR（ultra-fast pulse-controlled PCR,upPCR）是实时荧光定量PCR（qPCR）技术的延伸和升级,该技术利用能量脉冲控制扩增反应中的金属加热元件（主要是纳米金）,在几百微秒内完成溶液局部微环境的快速升温,实现模板DNA的解链变性,停止加热后反应微环境可被周围溶液快速冷却到聚合酶的延伸温度,实现引物退火和模板DNA的扩增,单个变性-扩增循环仅有1.5~5 s,远快于传统PCR（约90 s/循环）,从而能够极大地加快扩增反应速度。upPCR技术在保留了传统qPCR高灵敏度、高特异性和多重检测等优势的基础上,增加了超快速（低于15 min）、设备简单等新优势,非常适合用于基层检测等分子POCT场景。本文主要对upPCR技术的原理、设备、核心原料及在分子诊断中的应用进行综述,并对该技术存在的优缺点,以及未来的技术发展和应用趋势进行了讨论。     

DNA聚合酶与引物/模板的相互作用对PCR效率的影响

PCR是体外酶促合成特异DNA片段的一种方法,引物的优劣直接关系到PCR的特异性与成功与否。传统的PCR引物设计软件基本上忽略了DNA聚合酶与引物/模板的亲和性对PCR效率的影响。为揭示DNA聚合酶与引物/模板的相互作用是否对PCR的效率有影响,通过构建Taq DNA 聚合酶与不同序列引物/模板DNA相互作用的三维结构模型,采用MM/GBSA方法计算复合物的结合自由能,以结合自由能为参数,为人血清白蛋白基因(Human Serum Albumin gene,HSA gene)和结核杆菌pyrF基因(Mycobacterium tuberculosis pyrF gene)设计了PCR引物。PCR实验结果表明,引物的PCR效率与结合自由能相关：引物与聚合酶的结合自由能越低,PCR实验的效率相对越高。这说明DNA聚合酶与引物/模板的相互作用对PCR效率有重要影响。因此,引物/模板DNA与聚合酶的结合自由能可以作为PCR引物设计的新参数。     

天花粉蛋白基因的克隆及序列分析

本文应用ＤＮＡ多聚酶链式反应（ＰＣＲ）技术,从括楼基因组ＤＮＡ中扩增并克隆了天花粉蛋白（ＴＣＳ）基因。核酸序列分析结果表明,克隆片段包括ＴＣＳ的前原蛋白的编码序列和５＇一侧翼区段。其编码序列与已发表的不同来源的３种ＴＣＳ基因的核苷酸序列的同源性分别为９９．２０％,９８．７４％和９８．６４％。推导出的氨基酸序列与已发表的４种ＴＣＳ的氨基酸序列的同源性分别为９８．６２％、９８．６２％、９７．４１％和９     

The T-cell receptor Vβ repertoire in naive and human immunodeficiency virus-1 (HIV-1) infected chimpanzees

Using a panel of human T-cell receptor (TCR) variable region β chain (Vβ) polymerase chain reaction (PCR) primers, we performed cross-sectional and longitudinal analyses of the TCR Vβ repertoire in naive and HIV-1 infected chimpanzees. We demonstrate that our TCR PCR primer panel will support amplification of chimpanzee cDNA from most of the TCR Vβ families. However, no differences in TCR Vβ expression were found between the naive and HIV-1 infected chimpanzees, unlike the TCR Vβ repertoire perturbation found in HIV-1 infected human subjects. This finding suggests that a complete TCR repertoire in HIV-1 infected chimpanzees is associated with the maintenance CD4 + T-cell numbers and lack of progression to AIDS.     

Greater Amount of HCV-RNA in Tears Compared to Blood

Plasma, tear fluid and swabs from eye, nose and pharynx of 33 patients were examined for presence of hepatitis C virus (HCV) RNA by polymerase chain reaction (PCR). All samples from plasma, tear fluid and eyeswabs were found to show a positive reaction in HCV-RNA PCR. Remarkably, we regularly found greater amounts of amplification products in tear fluid and eyeswabs compared to plasma using the same conditions for sample preparation.     

Detection of Minute Virus of Mice Using Real Time Quantitative PCR in Assessment of Virus Clearance During the Purification Of Mammalian Cell Substrate Derived Biotherapeutics

A real time quantitative PCR assay has been developed for detecting minute virus of mice (MVM). This assay directly quantifies PCR product by monitoring the increase of fluorescence intensity emitted during enzymatic hydrolysis of an oligonucleotide probe labelled covalently with fluorescent reporting and quenching dyes via Taq polymerase 5'-->3' exonuclease activity. The quantity of MVM DNA molecules in the samples was determined using a known amount of MVM standard control DNA fragment cloned into a plasmid (pCR-MVM). We have demonstrated that MVM TaqMan PCR assay is approximately 1000-fold more sensitive than the microplate infectivity assay with the lowest detection limit of approximately one particle per reaction. The reliable detection range is within 100 to 10(9) molecules per reaction with high reproducibility. The intra assay variation is <2.5%, and the inter assays variation is <6.5% when samples contain >100 particles/assay. When we applied the TaqMan PCR to MVM clearance studies done by column chromatography or normal flow viral filtration, we found that the virus removal factors were similar to that of virus infectivity assay. It takes about a day to complete entire assay processes, thus, the TaqMan PCR assay is at least 10-fold faster than the infectivity assay. Therefore, we concluded that this fast, specific, sensitive, and robust assay could replace the infectivity assay for virus clearance evaluation.     

Improved thermostability and PCR efficiency of Thermococcus celericrescens DNA polymerase via site-directed mutagenesis

The Thermococcus celericrescens (Tcel) DNA polymerase gene, which contains a 2328-bp open reading frame that encodes 775 amino acid residues, was expressed in the Escherichia coli strain Rosetta(DE3)pLysS. The expressed enzyme was purified through heat treatment, HisTrap™ HP column chromatography and then HiTrap™ SP HP column chromatography. Tcel DNA polymerase has poor thermostability and PCR efficiency compared to those of other family B DNA polymerases. To improve thermostability and PCR efficiency, mutant Tcel DNA polymerases were created via site-directed mutagenesis. Specifically, we targeted the A752 residue for enhanced thermostability and the N213 residue for improved PCR efficiency. The mutant Tcel DNA polymerases all showed enhanced PCR efficiency and thermostability compared to those of the wild-type Tcel DNA polymerase. Specifically, the double mutant TcelA752K/N213D DNA polymerase had an approximately three-fold increase in thermostability over that of the wild-type enzyme and amplified a long 10-kb PCR product in an extension time of 2 min. However, there was a small change in the 3′ → 5′ exonuclease activity compared with that of the wild-type Tcel DNA polymerase, even though the mutation is in the ExoII motif. The double mutant TcelA752K/N213D DNA polymerase had a 2.6-fold lower error rate compared to that of Taq DNA polymerase. It seems that the double mutant TcelA752K/N213D DNA polymerase can be used in LA (long and accurate) PCR.     

Specific PCR product primer design using memetic algorithm

To provide feasible primer sets for performing a polymerase chain reaction (PCR) experiment, many primer design methods have been proposed. However, the majority of these methods require a relatively long time to obtain an optimal solution since large quantities of template DNA need to be analyzed. Furthermore, the designed primer sets usually do not provide a specific PCR product size. In recent years, evolutionary computation has been applied to PCR primer design and yielded promising results. In this article, a memetic algorithm (MA) is proposed to solve primer design problems associated with providing a specific product size for PCR experiments. The MA is compared with a genetic algorithm (GA) using an accuracy formula to estimate the quality of the primer design and test the running time. Overall, 50 accession nucleotide sequences were sampled for the comparison of the accuracy of the GA and MA for primer design. Five hundred runs of the GA and MA primer design were performed with PCR product lengths of 150–300 bps and 500–800 bps, and two different methods of calculating T_m for each accession nucleotide sequence were tested. A comparison of the accuracy results for the GA and MA primer design showed that the MA primer design yielded better results than the GA primer design. The results further indicate that the proposed method finds optimal or near‐optimal primer sets and effective PCR products in a dry dock experiment. Related materials are available online at http://bio.kuas.edu.tw/ma‐pd/ . © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

Polymorphic microsatellite DNA markers from the Oriental Fruit Fly Bactrocera dorsalis (Hendel)

Six polymorphic microsatellite loci are isolated from the Oriental fruit fly Bactrocera dorsalis (Hendel), an agricultural pest in Asia, including Taiwan. To assess their potential utility as high‐resolution genetic markers, polymerase chain reaction (PCR) primers, amplification conditions, and an automated fluorescence detection protocol were developed. In analyses of 71 individual flies from six different areas of Taiwan, allele numbers ranged from five to 25 were detected for each locus. The observed heterozygosity ranged between 0.268 and 0.737 among these loci. No linkage disequilibrium was found. These microsatellite markers have potential utility to population structure and gene flow studies of B. dorsalis (Hendel).     

快速可靠的双链PCR产物直接测序法

利用T7DNA聚合酶在低温下仍具较高活性的特点,在热变性后低温下进行测序反应,使用该方法对多种PCR产物进行序列分析均取得较好的结果．     

基于PIPE现象的质粒克隆位点序列设计与功能评价

分子克隆是现代生物学研究的核心技术之一,是基因工程、蛋白质工程中的重要手段。为提高分子克隆实验的操作效率,本研究设计并合成基于聚合酶引物不完全延伸（polymerase incomplete primer extension,PIPE）现象的质粒克隆位点序列。并以此为基础统一相关引物的设计方案,避免传统酶切--连接法中需针对不同载体MCS序列设计不同引物的缺点。该方案利用13 bp定长接头序列,在同一体系中使用2对引物、2种线性化模板同时扩增载体和插入片段,通过20个循环,在1次PCR过程中即合成可供转化使用的带缺口质粒产物。在NEB Q5酶系统中,利用此法将3种荧光素酶序列插入pET-15b及pET-21b(+)载体,均获得成功。且利用商品化感受态细胞（转化效率 > 5×108 cfu/μg）转化后所获得转化子数量均在300个以上,其中含插入片段的阳性克隆比例可达85%以上。基于本方案的设计及作用原理,可将其应用于10 kb以内载体和插入片段的快速重组。且具有通用性强、耗时少、阳性克隆得率高和成本低等优点,是传统DNA重组方法的有益补充,可作为各实验室的常规分子克隆手段之一。