适配子筛选技术

适配子的筛选技术近年来不断改良与发展.结合核酸与游离核酸的分离技术的改良,使适配子筛选效率得到提高;无引物结合部位适配子的筛选技术的建立和短寡核苷酸文库的应用,使适配子的应用范围更加广泛;适配子筛选技术在功能上的拓展,满足了更多的研究要求.一系列新方法的建立和应用,使适配子在基础研究和临床应用方面更具潜在价值.     

SELEX技术筛选纤维蛋白适配子的研究

目的:用纤维蛋白作为靶物质对ss DNA随机序列文库进行筛选,旨在获得高亲和力的纤维蛋白适配子。方法:在体外人工合成长度为99个核苷酸的ss DNA随机序列文库,文库中间区域为63个核苷酸的随机序列,两端为18个核苷酸的固定的引物序列;然后以羧基磁珠为介质包被纤维蛋白,利用指数级富集的配体系统进化技术(SELEX)对ss DNA随机序列文库进行反复筛选,当结合率不再提高时对筛选出的适配子进行连接、转化及测序分析。结果:羧基磁珠成功地包被了纤维蛋白,包被效率为87.65%,经15轮逐步递增压力的筛选,获得了纤维蛋白适配子群,经测序分析比对发现适配子有很好的多样性。结论:应用SELEX技术初步筛选出了亲和力较高的纤维蛋白适配子群,为下一步的鉴定及功能研究奠定了良好基础。     

SELEX：一种体外筛选核酸适配子的新技术

ＳＥＬＥＸ技术是一项新的体外筛选技术,它是用体外合成的、其库容为１０^15左右的随机寡核苷酸库与靶物质结合。通过数轮的筛选与扩增,筛选到靶物质的目的ＤＮＡ或ＲＮＡ片段,对疾病的诊断与治疗方面起着重要的作用。为核酸的结构和功能的研究,提供了一个有效的方法。     

体外筛选炭疽芽孢适配子

用SELEX技术 ,寻获炭疽芽孢适配子 ,研究其亲和功能及是否作为炭疽芽孢的检测分子。化学合成长度为 35mer的随机DNA库 ,以炭疽杆菌疫苗株A .16R芽孢为靶标进行 18轮的筛选 ,筛选产物克隆、测序 ,利用生物素 亲和素 辣根过氧化物酶显色系统判断适配子与芽孢的结合活性 ;计算机软件分析测序适配子保守序列和二级结构 ;以兔抗炭疽芽孢抗体为捕获分子 ,适配子为检测分子混合夹心法检测炭疽芽孢。第 18轮筛选的适配子与芽孢结合后A值比第 1轮的提高了 3733 .33 %以上 ;测序 79个序列中 ,A值最高为 1.2 0 ,最低为 0 .2 0 ;混合夹心法检测表明 ,适配子量为 16 μg ,芽孢为 4× 10 7个时 ,显色信号强度最强。结果提示 ,其 5′端茎环及发夹结构是与芽孢结合的基础 ,远程高级结构对其结合功能有一定的影响 ;寡核苷酸适配子可以作为炭疽芽孢的检测分子     

肝脏去唾液酸糖蛋白受体特异性RNA适配子的SELEX筛选与鉴定

目的获得能够特异性高亲和力结合肝脏特异性去唾液酸糖蛋白受体（asialoglycoprotein receptor,ASGPR）的RNA适配子,为开发诊断和治疗肝脏疾病的靶向性试剂和药物奠定基础。方法合成一个长度为115nt含有25个随机序列的单链DNA随机文库,通过体外转录构建出单链RNA适配子随机文库,以肝脏ASGPR大亚基为靶蛋白,采用SELEX（systematic evolution of ligands by exponential enrichment）技术筛选具有高亲和力的AsGPR特异性RNA适配子;通过膜结合测定实验、凝胶阻滞实验鉴定筛选适配子对靶蛋白的特异性和亲和力。结果经过12轮筛选获得了具有高亲和力的肝脏ASGPR特异性RNA适配子。结论成功地筛选出了具有离亲和力的肝脏ASGPR特异性RNA适配子库。     

综述: 适配子介导的siRNA转运

小分子干扰RNA(small interfering RNA,siRNA)因能快速抑制哺乳动物特定基因的表达而用于各种疾病的治疗,然而选择合适的载体将siRNA安全有效地转运进入靶细胞仍是制约siRNA应用于临床治疗的重要因素．越来越多的转运载体被开发出来,其中包括针对细胞表面蛋白的适配子(aptamer)．Aptamer是一种能与靶分子高特异性和高亲和结合的寡核苷酸,已经越来越多地用于疾病的诊断和治疗．Aptamer作为载体介导siRNA转运可提高治疗的靶向性并减少副作用,这将为siRNA应用于临床靶向治疗提供一种特异有效的途径．目前,已经发现几种aptamers可以介导siRNA的转运,如anti-PSMA aptamer,anti-HIV gp120 aptamer,anti-CD4 aptamer等．本文将综述aptamer介导siRNA转运的最新研究进展．     

SELEX技术筛选变形链球菌UA159适配子可行性的研究

目的:研究SELEX技术用于筛选口腔致龋菌适配子的可行性。方法:化学合成长度为35mer的随机ssDNA文库,利用SE-LEX技术,分别以变形链球菌UA159(以下简称变链UA159)、乳杆菌和离心管作为靶物质,筛选适配子,不对称PCR扩增筛选产物,所得适配子进行克隆、测序,分析其二级结构,并对其二级结构进行了初步分析。结果:显示各个靶物质的筛选产物在第二轮筛选时就已经表现出具有特征性的二级结构。结论:SELEX技术可以用于口腔致龋菌适配子的筛选。     

哈维氏弧菌适配子的SELEX筛选及其亲和特异性研究

哈维氏弧菌是水产养殖中的重要条件致病菌,对其进行快速、准确地检测和鉴定是相关病害防治的基础和关键.适配子具有亲和力高、特异性强、稳定性好等优点,在微生物的检测和鉴定方面呈现出广泛的应用前景.本研究以哈维氏弧菌为靶目标,采用SELEX技术,即指数级富集配体的系统进化技术,筛选其特异性适配子.经15轮筛选后,随机ssDNA文库的亲和力从3.51上升到58.95,提高了15.8倍.筛选出的适配子富集库经克隆、测序后得到52条不同序列,根据同源性将这些序列分成8个家族,其中第1和第2家族的适配子数量最多,超过总数的50%.通过深入分析,筛选出6个对哈维氏弧菌有显著亲和特异性(P0.01)的高频适配子,其中5个高频适配子(S1、S25、S26、S27、S35)对哈维氏弧菌有较高的亲和力,相应的亲和常数Kd值分别为(32.6±7.1)、(45.3±10.1)、(24.7±5.8)、(34.8±5.6)、(12.9±4.0)nmol/L.本文还对高频适配子的产生机制及其应用价值进行了探讨.本文首次筛选出了对哈维氏弧菌具有较高亲和特异性的适配子,为后续利用适配子进行哈维氏弧菌的检测和鉴定奠定了基础.     

随机单链DNA文库SELEX筛选寡核苷酸适配子方法的建立

指数富集配基的系统进化(SELEX)技术是一种新的组合化学技术.体外构建了一个长度为81 nt、含有35个随机序列的单链DNA(ssDNA)文库,优化了ssDNA文库扩增为双链DNA (dsDNA)文库的PCR反应条件.通过对比不对称PCR和生物素-链亲和素磁珠分离方法制备ssDNA文库的效果,确定了以生物素-链亲和素磁珠分离方法制备ssDNA.由于脱氧核糖核酸的疏水性导致ssDNA文库与硝酸纤维素滤膜的结合背景过高,因此选择以微孔板为介质,分离与靶蛋白结合的适配子.经过9轮循环筛选,随机ssDNA文库与丙型肝炎病毒(HCV)核心蛋白(C蛋白)的结合率从0.5%上升到32.5%.     

适配子在生化分析中的应用进展

适配子具有亲和力高、特异性强、靶分子范围广、稳定性好、制备及修饰容易、可重复利用等优点,可以作为与抗体竞争的一类分子识别物质,用于亲和PCR、生物传感器、适配子信标、色谱法、质谱法、毛细管电泳、流式细胞分析及荧光偏振等分析领域,显示出广阔的应用前景。     

ValFold: Program for the aptamer truncation process

DNA or RNA aptamers have gained attention as the next generation antibody-like molecules for medical or diagnostic use. Conventional secondary structure prediction tools for nucleic acids play an important role to truncate or minimize sequence, or introduce limited chemical modifications without compromising or changing its binding affinity to targets in the design of improved aptamers selected by Systematic Evolution of Ligands by EXponential enrichment (SELEX). We describe a novel software package, ValFold, capable of predicting secondary structures with improved accuracy based on unique aptamer characteristics. ValFold predicts not only the canonical Watson-Crick pairs but also G-G pairs derived from G-quadruplex (known structure for many aptamers) using the stem candidate selection algorithm. AVAILABILITY: The database is available for free at http://code.google.com/p/valfold/     

In vitro selection of a DNA aptamer targeted against Shigella dysenteriae

To identify DNA aptamers demonstrating binding specificity for Shigella dysenteriae, a whole-bacterium Systemic Evolution of Ligands by Exponential enrichment (SELEX) method was applied to a combinatorial library of single-stranded DNA (ssDNA) molecules. After several rounds of selection using S. dysenteriae as the target, the highly enriched oligonucleotide pool was sequenced and then grouped into different families based on primary sequence homologies and similarities in the secondary structures. Aptamer S 1, which showed particularly high binding affinity in preliminary studies, was chosen for further characterisation. This aptamer displayed a dissociation constant (K_d value) of 23.47 ± 2.48 nM. Binding assays to assess the specificity of aptamer S 1 showed high binding affinity for S. dysenteriae and low apparent binding affinity for other bacteria. The ssDNA aptamers generated may serve as a new type of molecular probe for microbial pathogens, as it has the potential to overcome the tedious isolation and purification requirements for complex targets.     

Sequence-constructive SELEX: A new strategy for screening DNA aptamer binding to Globo H

We proposed to use a novel stepwise sequence-constructive SELEX method to develop DNA aptamers that can recognize Globo H which is a tumor-associated carbohydrate antigen. A combinatorial synthetic library that consisted of DNA molecules with randomized regions of 15-bases was used as the starting library for the first SELEX procedure. The input DNA library for the second round of SELEX consisted of the extension of the 5′ and 3′-ends with 7-bases that were randomized from four selected aptamers. The third round of SELEX was performed following the same procedures as described for the second round of SELEX. The experimental results indicate that the binding affinity of DNA aptamers to Globo H was enhanced when using the sequence-constructive SELEX approach. The selectivity of the DNA aptamers for related disaccharides, mannose derivatives, and Globo H analogs demonstrated the ability of the DNA aptamers to discriminate the presence of various glycans with different structures.     

DNA-duplex linker for AFM-SELEX of DNA aptamer against human serum albumin

DNA-duplex interactions in thymines and adenins are used as a linker for the novel methodology of Atomic Force Microscope-Systematic Evolution of Ligands by EXpotential enrichment (AFM-SELEX). This study used the hydrogen bonds in 10 mer of both thymines (T10) and adenines (A10). Initially, the interactive force in T10-A10 was measured by AFM, which returned an average interactive force of approximately 350 pN. Based on this result, DNA aptamers against human serum albumin could be selected in the 4th round, and 15 different clones could be sequenced. The lowest dissociation constant of the selected aptamer was identified via surface plasmon resonance, and it proved to be identical to that of the commercial aptamer. Therefore, specific hydrogen bonds in DNA can be useful linkers for AFM-SELEX.     

A novel lipopolysaccharide-antagonizing aptamer protects mice against endotoxemia

A growing number of researchers have recognized the importance of using lipopolysaccharide (LPS) as target for the prevention and treatment of sepsis. However, no drugs targeting LPS have been applied clinically. In this study, LPS-inhibiting aptamers were screened by Systematic Evolution of Ligands by Exponential Enrichment (SELEX), and their therapeutic effects for experimental sepsis were observed. After 12 rounds of screening, 46 sequences were obtained. Primary structure analysis indicated that they had identical sequences, partly conserved sequences, or non-conserved sequences. Secondary structure analysis showed these sequences usually contained hairpin or stem-loop structures. Aptamer 19 significantly decreased NF-κB activation of monocytes challenged by LPS and reduced the IL-1 and TNF-α concentration in the media of LPS-challenged monocytes. Furthermore, aptamer 19 significantly increased the survival rate of mice with endotoxemia. The results suggest that a novel LPS antagonizing aptamer was obtained by SELEX, which successfully treated experimental sepsis.     

A cell-based single-stranded DNA aptamer specifically targets gastric cancer

Gastric cancer is one of the most prevailing cancers with high morbidity and mortality. Limitations in the current diagnosis and therapy, specially lacking of specific molecular therapeutic targets, ask for the development of new strategies. Aptamer, a newly developed adaptive molecule, could be used in clinical detection and therapy because of its high affinity and specificity. As no aptamer has ever been developed in preventing gastric cancer so far, we were the first who cloned such an aptamer specifically targeting gastric cancer. The aptamer was selected by systematic evolution of ligands by exponential enrichment with gastric cancer cell-line HGC-27 as target cell line and immortalized gastric epithelial cell-line GES-1 as control cell line. The affinity and specificity of candidate aptamers were examined by flow cytometry, confocal imagining and aptamer-based histochemistry staining. After 19 cycles of systematic evolution of ligands by exponential enrichment and subsequent cloning and sequencing, an aptamer with the highest affinity and specificity (nominated as AGC03) among candidates was screened out from a random single-stranded DNA pool. Moreover, AGC03 could not only specifically bind to gastric cancer cells (the equilibrium dissociation constant value was 16.49 ± 0.40 nM) in vitro, but also recognize cancer cells in human cancer tissue. Our most important finding is that AGC03 could even be internalized into cells automatically. In conclusion, we obtained a novel aptamer specifically targeting gastric cancer, which is an effective tool for both gastric cancer diagnosis and drug delivery.     

A DNA aptamer with high affinity and specificity for therapeutic anthracyclines

We describe the characterization of a DNA aptamer that displays high affinity and specificity for the anthracyclines daunomycin and doxorubicin, both of which are frequently used in chemotherapy. Aptamers were isolated from a pool of random sequences using a semiautomated procedure for magnetic beads. All selected aptamers displayed high affinity for the target molecule daunomycin. One aptamer was further characterized and exhibited a dissociation constant (KD) of 20 nM. To examine the aptamer's binding properties and clarify its applicability for diagnostic assays, its performance under various buffer conditions was evaluated. The aptamer proved to be very robust and not dependent on the presence of specific ions. It also tolerated a wide pH range and immobilization via 5'-biotinylation. Furthermore, a competition assay for sensitive daunomycin detection was established. This not only allows the determination of the aptamer's specificity but also allows the quantification of as little as 8.4 microg/L daunomycin and doxorubicin.     

Gold nanoparticle-based colorimetric detection of kanamycin using a DNA aptamer

A selective kanamycin-binding single-strand DNA (ssDNA) aptamer (TGGGGGTTGAGGCTAAGCCGA) was discovered through in vitro selection using affinity chromatography with kanamycin-immobilized sepharose beads. The selected aptamer has a high affinity for kanamycin and also for kanamycin derivatives such as kanamycin B and tobramycin. The dissociation constants (K_d [kanamycin] = 78.8 nM, K_d [kanamycin B] = 84.5 nM, and K_d [tobramycin] = 103 nM) of the new aptamer were determined by fluorescence intensity analysis using 5′-fluorescein amidite (FAM) modification. Using this aptamer, kanamycin was detected down to 25 nM by the gold nanoparticle-based colorimetric method. Because the designed colorimetric method is simple, easy, and visible to the naked eye, it has advantages that make it useful for the detection of kanamycin. Furthermore, the selected new aptamer has many potential applications as a bioprobe for the detection of kanamycin, kanamycin B, and tobramycin in pharmaceutical preparations and food products.     

基于适体技术的桔青毒素检测方法的建立

桔青毒素（citrinin,CTN）是以玉米、谷物、奶酪等为主要成分的食品和动物饲料中常见的、由桔青霉菌产生的酮类真菌毒素,可引起人和动物的慢性中毒或癌症,一直缺少灵敏的快速检测方法。本文通过指数富集适体系统进化技术（简称SELEX）对可能与CTN结合的特异性适体进行了筛选,经过15轮循环,得到17条适体。通过二级结构分析、亲和力检测发现适体13（Apt-13）对CTN有较好的亲和度,解离常数Kd为0.06μmol/L。进一步利用非荧光标记染料PicoGreen,利用其与双链DNA结合的原理,建立了桔青毒素非标记荧光检测方法,30min完成检测,最低检测限达到国家标准（50ppb）且与其他毒素无交叉反应。本研究建立的基于适体的桔青毒素检测技术成本低,可以替代传统的基于抗体的检测方法,为霉菌毒素的精准检测技术的开发提供了实验证据。