用寡核苷酸本身作为PCR引物检测其重组DNA

以待检测的寡核苷酸本身作为一个引物,加上两个载体特异引物,组成两对PCR引物。含待检测寡核苷酸片段的重组DNA用这两对引物可分别扩增出两个大小不同的片段,而载体DNA只有一对引物（即载体特异引物）可扩增出一个较小的片段。     

AAV-ITR单链DNA微载体在小鼠骨骼肌中的表达

AAV-ITR单链DNA微载体是一种基于腺相关病毒(AAV)倒置末端重复序列(ITR)的基因表达载体(AAV-ITR ss DNA mini vector)。前期研究已证明AAV-ITR单链DNA微载体在HEK 293T细胞中具有较高的转染、表达效率。本文中将相同拷贝数的AAV-ITR单链DNA微载体、3?-ITR末端错配的AAV-ITR单链DNA微载体(AAV-ITRmm ss DNA mutant vector)、AAV-ITR双链DNA和质粒分别用Turbo Fect转入小鼠骨骼肌中,比较检测AAV-ITR单链DNA微载体与其他基因表达载体在小鼠体内1周、1个月及3个月的表达效率。组织切片经荧光显微镜观察及荧光灰度值分析表明,相同分子摩尔数的AAV-ITR单链DNA微载体比AAV-ITR双链DNA和质粒在不同时期表达效率都要高且更稳定。提取注射3个月后的肌肉组织的DNA,用荧光定量PCR分析比较各载体的存留分子数。RT-PCR的结果显示AAV-ITR单链DNA微载体在注射3个月后的存留分子数较其他载体高。综合结果显示AAV-ITR单链DNA微载体在动物体内具有表达效率高和长久稳定的优势,有可能开发为基因治疗的一种高效、稳定的新型载体。     

用单链噬菌体载体克隆DNA

丝状单链DNA大肠杆菌型噬菌体M 13、fd及f1,近来被作为一类新的DNA克隆载体而发展起来了,它的优点显著超过其它载体,包括其它两类大肠杆菌寄主的克隆载体:质粒和噬菌体λ。本综述描述单链噬菌体载体的生物学及应用方法以及测量插入DNA大小和排列方向的快速方法,特别是单链载体对DNA定序和离体位点定向诱变     

用羟基磷灰石柱分级洗脱法纯化小牛胸腺末端脱氧核苷酸转移酶和DNA聚合酶

DNA分子体外重组一般有两种方法。一种是限制性核酸内切酶—DNA连接酶方法此法缺点是要求克隆的DNA和载体DNA都必须具有粘性末端,如无粘性末端,必须加大DNA连接酶的酶量才能重组;另一种方法为末端转移酶法,其优点是任意的两种DNA     

DNA载体的数据分类及查询系统的开发和应用

DNA载体是基因工程中一个重要的工具,从1977年组建了第一个载体到现在,裁体的数量已经达到上百种.为了更好、更充分地利用这些载体为科研人员服务,设计了DNA载体的数据分类及查询系统软件.DNA载体的数据分类及查询系统包括3个模块:数据输入模块、数据查询模块和数据计算模块.首先将载体按照功能的不同进行分类和编号,建立一个较完整的载体数据库.然后利用查询和计算功能,令用户快速地查找到其需要的载体.     

骨骼肌特异表达线虫ω-3脂肪酸去饱和酶基因载体的构建与验证

根据猪α-actin基因已知DNA序列设计合成了两个特异性引物,以猪基因组DNA为模板,通过PCR扩增得到α-actin 5'调控序列,然后与线虫ω-3脂肪酸去饱和酶基因cDNA、去除CMV启动子的表达载体pcDNA3.1连接构成肌肉特异性表达载体pcDNA3.1-AF,小鼠股四头肌注射该重组载体,RT-PCR检测证明...     

生物学小史

六、脱氧核糖核酸 1911年,美国的列文把核酸分为核糖核酸(RNA)和脱氧核糖核酸(DNA)两大类。染色体是由DNA和蛋白质组成的。染色体之所以是遗传物质的载体,所载者就是DNA。说自己是     

用粘粒载体克隆霍乱弧菌染色体基因方法的建立

本文采用我国 El Tor 型霍乱弧菌805菌株(稻叶血清型,噬菌体-生物型 ld)为实验菌株,对粘粒载体(Cosmid)基因克隆的方法,进行了探索.首先从感染噬菌体λ突变体的溶原菌(HB 2688,HB2690)制备包装抽提物。制备方案有二:一是直接制备 HB2688,HB2690混合包装抽提物;另一是用超声波处理制备 HB2690抽提物;用冻融法制备 HB2688抽提物.包装时再将两者混合.本文认为以 pHC79为载体进行包装时,两方案效果一样,第一方案操作较简便些.在核酸操作中,从805菌株提取染色体 DNA,要求 DNA 的长度约为100kb;进行染色体 DNA部分消解时,应使大部分 DNA 片段在30～40kb 之间;连接时,碱性磷酸酶处理过的载体量应为30～40kb DNA 的10倍.本文以 pHC79为载体,建立805菌株染色体 DNA 无性繁殖系,得到500多个克隆子。     

细菌人工染色体文库的构建方法分析

细菌人工染色体是一种承载大片段DNA的新型载体系统,它具有插入片断大、嵌合率低、遗传稳定性好、易于操作等优点.在高等生物基因组文库的构建和基因功能的分析等方面有广泛应用.BAC文库的构建是基因组较大的真核生物基因组学研究的重要基础.介绍了近年来细菌人工染色体文库构建方法上的研究进展,对其中载体的制备和高分子量DNA的制备这两个关键环节作了较深入的探讨.     

麦迪霉素产生菌具有启动功能的DNA片段的克隆和分析

利用启动子探针质粒载体pIJ486从麦迪霉素产生菌总DNA中克隆得到了一段具有启动功能的DNA片段.通过限制性酶酶切分析,测定插入DNA片段大小为2.3kb.又利用载体pIJ486和pIJ487的新霉素抗性结构基因上游有多酶切点方向相反的性质,分析了插入片段在两个不同方向上的启动能力.结果表明,在两个方向上均有启动功能,但强弱相差六倍.其中在XbaI-HindIII方向上具有较强的启动能力,在变铅青链霉菌中新霉素抗性水平可达20mg/ml以上.进一步对插入片段的三个BamHI小片段进行分析的结果表明,较强启动子区域集中在BamHI-BamHI 0.79kb DNA片段上.     

Cloning and characterization of two plasmids from Bacillus thuringiensis in Bacillus subtilis

Bacillus thuringiensis subspecies israliensis plasmids pTX14-1 and pTX14-3 were cloned and analyzed by Southern blot hybridization for their replication mechanism in Bacillus subtilis. The cloning of pTX14-1 into the replicon deficient vector pBOE335 showed the usual characteristics of single-stranded DNA plasmids, i.e., it generated circular single-stranded DNA and high molecular weight (HMW) multimers. The other plasmid, pTX14-3, behaved differently; it generated neither single-stranded DNA nor HMW multimers. Treatment with rifampicin did not result in the accumulation of single-stranded DNA. However, deletion of an EcoRI-PstI fragment resulted in the accumulation of both single-stranded DNA and HMW multimers. From various deletion derivatives, we have mapped the minus origin and the locus responsible for suppression of HMW multimer formation. Full activity of the minus origin and of the locus suppressing HMW formation was only observed on the native replicon, indicating a coupling to the plus strand synthesis.     

Isolation of High Molecular Weight DNA from Marine Sponge Bacteria for BAC Library Construction

Metagenomics is a powerful tool for mining the genetic repositories from environmental microorganisms. Bacteria associated with marine sponges (phylum Porifera) are rich sources of biologically active natural products. However, to date, few compounds are discovered from the sponge metagenomic libraries, and the main reason might be the difficulties in recovery of high molecular weight (HMW) DNA from sponge symbionts to construct large insert libraries. Here, we describe a method to recover HMW bacterial DNA from diverse sponges with high quality for bacterial artificial chromosome (BAC) library construction. Microorganisms concentrated from sponges by differential centrifugation were embedded in agarose plugs to lyse out the HMW DNA for recovery. DNA fragments over 436 kb size were recovered from three different types of sponges, Halichondria sp., Haliclona sp., and Xestospongia sp. To evaluate the recovered DNA quality, the diversity of bacterial DNA comprised in the HMW DNA derived from sponge Halichondria sp. was analyzed, and this HMW DNA sample was also cloned into a shuttle BAC vector between Escherichia coli and Streptomyces sp. The results showed that more than five types of bacterial DNA, i.e., Proteobacteria, Nitrospirae, Cyanobacteria, Planctomycetes, and unidentified bacteria, had been recovered by this method, and an average 100 kb size insert DNA in a constructed BAC library demonstrated that the recovered HMW DNA is suitable for metagenomic library construction.     

Extraction of high molecular weight DNA from microbial mats

Successful and accurate analysis and interpretation of metagenomic data is dependent upon the efficient extraction of high-quality, high molecular weight (HMW) community DNA. However, environmental mat samples often pose difficulties to obtaining large concentrations of high-quality, HMW DNA. Hypersaline microbial mats contain high amounts of extracellular polymeric substances (EPS)1 and salts that may inhibit downstream applications of extracted DNA. Direct and harsh methods are often used in DNA extraction from refractory samples. These methods are typically used because the EPS in mats, an adhesive matrix, binds DNA during direct lysis. As a result of harsher extraction methods, DNA becomes fragmented into small sizes. The DNA thus becomes inappropriate for large-insert vector cloning. In order to circumvent these limitations, we report an improved methodology to extract HMW DNA of good quality and quantity from hypersaline microbial mats. We employed an indirect method involving the separation of microbial cells from the background mat matrix through blending and differential centrifugation. A combination of mechanical and chemical procedures was used to extract and purify DNA from the extracted microbial cells. Our protocol yields approximately 2 μg of HMW DNA (35-50 kb) per gram of mat sample, with an A(260/280) ratio of 1.6. Furthermore, amplification of 16S rRNA genes suggests that the protocol is able to minimize or eliminate any inhibitory effects of contaminants. Our results provide an appropriate methodology for the extraction of HMW DNA from microbial mats for functional metagenomic studies and may be applicable to other environmental samples from which DNA extraction is challenging.     

Cloning and characterization of two plasmids from Bacillus thuringiensis in Bacillus subtilis

Bacillus thuringiensis subspecies israliensis plasmids pTX14-1 and pTX14-3 were cloned and analyzed by Southern blot hybridization for their replication mechanism in Bacillus subtilis. The cloning of pTX14-1 into the replicon deficient vector pBOE335 showed the usual characteristics of single-stranded DNA plasmids, i.e., it generated circular single-stranded DNA and high molecular weight (HMW) multimers. The other plasmid, pTX14-3, behaved differently; it generated neither single-stranded DNA nor HMW multimers. Treatment with rifampicin did not result in the accumulation of single-stranded DNA. However, deletion of an EcoRI-PstI fragment resulted in the accumulation of both single-stranded DNA and HMW multimers. From various deletion derivatives, we have mapped the minus origin and the locus responsible for suppression of HMW multimer formation. Full activity of the minus origin and of the locus suppressing HMW formation was only observed on the native replicon, indicating a coupling to the plus strand synthesis.     

Construction and screening of BAC libraries made from Brachypodium genomic DNA

Bacterial artificial chromosome (BAC) libraries are the large DNA insert libraries of choice and valuable tools for the map-based cloning of target quantitative trait loci, physical mapping, molecular cytogenetics and comparative genomics. The protocol reported here is a simplified method used to produce and screen BAC libraries from Brachypodium species and other related grasses. Intact nuclei, containing high molecular weight (HMW) DNA, are isolated and embedded in agarose plugs. The HMW DNA is digested using an appropriate restriction enzyme and size-fractionated using pulsed-field gel electrophoresis. The DNA is isolated by dialysis, ligated into pre-prepared vector and electroporated into competent Escherichia coli cells. A PCR-based method for screening the library is also described. The entire protocol takes at least 6 weeks to complete.     

The role of topoisomerase II in the excision of DNA loop domains during apoptosis

Disintegration of nuclear DNA into high molecular weight (HMW) and oligonucleosomal DNA fragments represents two major periodicities of DNA fragmentation during apoptosis. These are thought to originate from the excision of DNA loop domains and from the cleavage of nuclear DNA at the internucleosomal positions, respectively. In this report, we demonstrate that different apoptotic insults induced apoptosis in NB-2a neuroblastoma cells that was invariably accompanied by the formation of HMW DNA fragments of about 50-100 kb but proceeded either with or without oligonucleosomal DNA cleavage, depending on the type of apoptotic inducer. We demonstrate that differences in the pattern of DNA fragmentation were reproducible in a cell-free apoptotic system and develop conditions that allow in vitro separation of the HMW and oligonucleosomal DNA fragmentation activities. In contrast to apoptosis associated with oligonucleosomal DNA fragmentation, the HMW DNA cleavage in apoptotic cells was accompanied by down-regulation of caspase-activated DNase (CAD) and was not affected by z-VAD-fmk, suggesting that the caspase/CAD pathway is not involved in the excision of DNA loop domains. We further demonstrate that nonapoptotic NB-2a cells contain a constitutively present nuclease activity located in the nuclear matrix fraction that possessed the properties of topoisomerase (topo) II and was capable of reproducing the pattern of HMW DNA cleavage that occurred in apoptotic cells. We demonstrate that the early stages of apoptosis induced by different stimuli were accompanied by activation of topo II-mediated HMW DNA cleavage that was reversible after removal of apoptotic inducers, and we present evidence of the involvement of topo II in the formation of HMW DNA fragments at the advanced stages of apoptosis. The results suggest that topo II is involved in caspase-independent excision of DNA loop domains during apoptosis, and this represents an alternative pathway of apoptotic DNA disintegration from CAD-driven caspase-dependent oligonucleosomal DNA cleavage.     

Insertion of foreign DNA into plasmids from gram-positive bacteria induces formation of high-molecular-weight plasmid multimers.

Plasmids pUB110, pC194, pE194, and pT181 are commonly used as cloning vectors in both Bacillus subtilis and Staphylococcus aureus. We report that insertion of foreign DNA into any of these plasmids results in the generation of high-molecular-weight plasmid multimers (HMW) of the recombinant, present as tandem head-to-tail copies. HMW was detected in wild-type B. subtilis and S. aureus strains. The production of HMW depended on the nature of the DNA insertion. Inserts of Escherichia coli DNA, e.g., pBR322 or pUC18, resulted in large amounts of HMW, whereas some inserts of S. aureus DNA of the same size had no effect on plasmid profile. The generation of HMW depended on the mode of plasmid replication; plasmids which replicate via a single-stranded DNA intermediate produced HMW upon foreign DNA insertion, whereas plasmid pAM beta 1, which does not generate single-stranded DNA, did not generate HMW. We propose that HMW is a product of imparied termination of rolling-circle replication and that the impairment is due to the nature of the DNA insertion.     

Effect of overexpressing fibroblast growth factor 2 protein isoforms in osteoblastic ROS 17/2.8 cells

Fibroblast growth factor-2 (FGF-2) is made by osteoblasts and modulates their function. There are high molecular weight (HMW) protein isoforms of FGF-2 that have nuclear localization sequences and a low molecular weight (LMW) 18 kDa FGF-2 protein that is exported from cells. Since FGF-2 is a trophic factor and potent mitogen for osteoblasts, the goal of this study was to utilize targeted overexpression of FGF-2 as a novel means of assessing different FGF-2 isoforms on osteoblastic cell viability and proliferation. Either LMW or HMW human Fgf2 cDNAs were cloned downstream of 3.6 kb alpha1(I)-collagen 5' regulatory elements (Col 3.6). A set of expression vectors, called Col3.6-Fgf2 isoforms-IRES-GFPsaph, capable of concurrently overexpressing either LMW or HMW FGF-2 isoforms concomitant with GFPsaph from a single bicistronic mRNA were built. Viable cell number in ROS 17/2.8 cells stably transfected with Vector (Col3.6-IRES-GFPsaph) versus each of the Col3.6-Fgf2-IRES-GFPsaph constructs were compared. In the presence of 1 or 10% serum, DNA synthesis was increased in cells expressing any isoform of FGF-2 compared with vector. However, cells transfected with HMW isoform had augmented DNA synthesis in 1 or 10% serum compared with cells expressing either ALL or LMW FGF-2 isoforms. A neutralizing FGF-2 antibody significantly reduced the mitogenic response in cells harboring ALL or the LMW FGF-2 isoforms but did not block the mitogenic effect of cells harboring the HMW isoforms. In summary, overexpression of any isoform of FGF-2 protein increased viable cell number and OB proliferation in the presence of low or high concentrations of serum. However, the HMW/nuclear isoforms preferentially mediate augmented OB proliferation. We conclude that differential expression of FGF-2 proteins isoforms is important in modulating OB function.     

The contribution of apoptosis-inducing factor, caspase-activated DNase, and inhibitor of caspase-activated DNase to the nuclear phenotype and DNA degradation during apoptosis

We have assessed the contribution of apoptosis-inducing factor (AIF) and inhibitor of caspase-activated DNase (ICAD) to the nuclear morphology and DNA degradation pattern in staurosporine-induced apoptosis. Expression of D117E ICAD, a mutant that is resistant to caspase cleavage at residue 117, prevented low molecular weight (LMW) DNA fragmentation, stage II nuclear morphology, and detection of terminal deoxynucleotidyl transferase staining. However, high molecular weight (HMW) DNA fragmentation and stage I nuclear morphology remained unaffected. On the other hand, expression of either D224E or wild type ICAD had no effect on DNA fragmentation or nuclear morphology. In addition, both HMW and LMW DNA degradation required functional executor caspases. Interestingly, silencing of endogenous AIF abolished type I nuclear morphology without any effect on HMW or LMW DNA fragmentation. Together, these results demonstrate that AIF is responsible for stage I nuclear morphology and suggest that HMW DNA degradation is a caspase-activated DNase and AIF-independent process.