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1.
磁珠以其比表面积大、易与生物分子耦联、操控方便等优点,在生命科学中得到了广泛应用。随着微机电系统(MicroElectroMechanicalSystems,MEMS)技术的发展,将磁珠应用到微流控芯片中构建磁珠微流控分析系统,为生物样品分离、检测提供了一种全新方法。新一代植物志iFlora融入现代DNA测序技术.应用高速发展的信息、网络技术及云计算分析平台,收集、整合和管理植物物种相关信息,以实现物种智能鉴定和数据提取,而包括DNA条形码在内的遗传信息及其获取技术在iFlora中的作用至关重要。本文重点概述了基于纳米磁珠的微流控芯片技术及其在分子生物学领域中的应用,提出构建基于纳米磁珠微流控芯片的iFlora遗传信息采集系统,在微芯片上完成从DNA提取到测序全过程,实现物种遗传信息的快速、高效获取。  相似文献   

2.
基因打靶技术的研究进展   总被引:1,自引:0,他引:1  
基因打靶技术是20世纪80年代发展起来的新技术,是一种利用DNA同源重组原理和胚胎干细胞(ES细胞)技术按定向组合的方式改变生物活体遗传信息的试验手段,具有广阔的应用前景。对基因打靶技术原理、步骤、条件性基因打靶以及应用进行综述。  相似文献   

3.
古DNA技术在人类墓葬遗骸研究中的应用及进展   总被引:1,自引:0,他引:1  
考古工作中得到的生物遗骸由于长期的风化,自然侵蚀等因素的影响,遗骸本身含有的古代生物的DNA的大部分会分解,使得对遗骸中的生物遗传信息研究变得非常困难.可将现代生物工程的PCR技术应用到考古工作中,该技术能够对残存的微量DNA进行大量的生物体外扩增,得到更多的古代生物的遗传信息,提高时遗骸种属鉴定的准确性.通过对出土的人类遗骸中微量DNA的扩增、测试和遗骸间DNA序列的对比,在计算机软件的帮助下与已知的人类DNA序列进行比较,能确定同一墓葬中不同遗骸的亲缘关系和该遗骸群体在整个人类进化体系中的位置.对这一试验过程的一些方法、技术、研究进展和目前仍然面临的一些问题作了介绍.  相似文献   

4.
基因芯片技术及其应用   总被引:7,自引:0,他引:7  
基因芯片是近年来产生的一项生物高技术。它是利用原位合成或合成后交联法,将大量的核酸片段有规则地固定在固相支持物如载玻片、金属片、尼龙膜上,制成芯片,然后将要检测的样品用荧光素或同位素标记,再与做成的芯片充分杂交,通过对杂交信号的检测来分析样品中的信息。基因芯片技术已在基因表达水平的检测、基因点突变及多态性检测、DNA序列测定、寻找可能的致病基因和疾病相关基因、蛋白质作图、基因组文库作图等方面显示出了广阔的应用前景。  相似文献   

5.
DNA作为生物大分子既可以引导生物发育和生命机能活动,也可以被用作构筑纳米生物材料。DNA水凝胶可以制备成兼具DNA生物功能和水凝胶特质,应用于环境样品的分析检测。依据制备DNA水凝胶长链的方法,对比分析了聚合酶链反应、杂交链式反应、滚环扩增技术的制备,物理水凝胶和化学水凝胶的合成过程和改性方法技术特点;并结合环境样品浓度检测的变性响应特点,分析了荧光、比色、电化学法分析检测的技术要点和检测性能,与大型仪器分析方法相比该方法具有检出限低、检出范围广、检测时间快、测样成本偏低等特点,是一种方便快捷、应用前景广泛的方法;最后对其检出性能和经济性进行评估,并对其应用前景进行总结和展望。  相似文献   

6.
生物大分子(如蛋白质等)在生物体内行使功能必须要保证其立体结构的正确性。作为研究大分子高级结构的主要手段,结晶技术结合X-射线衍射技术、核磁共振技术以及电镜技术被普遍应用于高级结构的数据分析。随着这些技术的进一步完善,目前已经能完成蛋白质与配体的共结晶。遗传信息从最原始的DNA或RNA传递到以蛋白质的形式呈现功能的过程是由众多酶或蛋白质复合体催化的多步骤进程,解析其中重要元件的空间结构推动了对这些酶反应机理的深入研究。主要阐述结晶技术在遗传信息传递过程中关键酶或蛋白质复合体的研究中的应用。  相似文献   

7.
利用基因芯片技术筛选HIV-1F亚型基因限制性显示探针   总被引:2,自引:0,他引:2  
为筛选限制性显示技术制备的HIV 1F亚型基因探针 ,应用基因芯片打印仪将其有序地打印在玻片上制备基因芯片 .在随机引物延伸的过程中进行HIV样品的荧光标记 ,然后与芯片进行杂交 .杂交后清洗玻片并干燥 ,对芯片进行扫描 ,分析各探针的杂交信号 .从中筛选了 14个基因片段作为芯片下一步研究的探针 .实验证明 ,限制性显示技术是一种制备基因芯片探针的实用方法  相似文献   

8.
基因是人类的遗传信息的载体,其遗传和表达影响人类的繁衍及各种生命活动;个体基因组DNA序列突变往往会导致疾病的发生,获取个体的基因组DNA序列将有助于疾病的诊断.DNA测序技术潜在的医学应用前景使其近几年有了飞速的发展.本文将介绍各代DNA测序技术已经取得的进展,目前尚待克服的挑战及可能的解决办法,并着重分析最新的单分子测序技术的发展潜能及临床应用前景.  相似文献   

9.
对DNA芯片的发生、发展、技术特点及在生命科学中的应用作了回顾,结果表明DNA芯片通过DNA或RNA样品与阵列的的杂交,可用于基因测序、基因表达、新基因的发现、突变的检测等等领域,虽然DNA芯片目前存在着不足和缺陷,但它正成为基因组和后基因组研究的重要工具.  相似文献   

10.
刘斯璐  毛芸  乔传令  崔峰 《昆虫知识》2012,49(6):1670-1676
抑制性差减杂交技术(suppression subtractive hybridization)是在差减杂交和抑制性PCR技术的基础上发展起来的鉴别差异表达基因的实验方法,用于分离2种具有相同或者相似遗传背景,但是表型上有差异的生物样品中差异表达的基因。这项技术在蚊虫许多研究领域,如抗药性、病原体感染、生理特性等得到广泛的应用。本文对抑制性差减杂交技术在蚊虫各研究领域的应用情况进行了综述。  相似文献   

11.
陈旧皮张中DNA提取的新方法   总被引:26,自引:6,他引:26       下载免费PDF全文
对传统的馆藏陈旧皮张标本DNA提取方法进行了改进,所提DNA分子量可达1kb,而且具有样品用量少(约0.01g),消化时间短(约14h)和操作步骤简单等优点,利用所提DNA,对小熊猫等珍稀动物线粒体DNA的细胞色素b和控制区序列的部分片段进行了PCR扩增,序列测定和比较分析,证实所提DNA合格而无污染,完全可以用于珍稀动物保护遗传学研究。  相似文献   

12.
内参基因加标法定量土壤微生物目标基因绝对拷贝数   总被引:1,自引:0,他引:1  
【目的】通过荧光定量PCR技术对土壤微生物目标基因进行绝对定量,其定量结果的准确性容易受到DNA提取得率以及腐殖酸抑制性的影响。【方法】采用内参基因加标法,利用构建的突变质粒DNA,对供试水稻土壤样品中的微生物16S r RNA目标基因的绝对拷贝数进行荧光定量PCR检测,用来表征该样品中细菌群落总体丰度。在定量前通过双向引物扩增方法验证突变质粒中的内参基因对供试土壤的特异性。【结果】不同水稻土壤样品的DNA提取量在样品间差异较大。通过内参基因加标法对DNA提取量进行校正,显著提高了16S r RNA基因绝对定量的精确度。不同水稻土壤样品间的变异系数为17.8,与未加标处理相比降低了66.7%。在此基础上,进一步通过内参基因加标法对土壤有机质和含水率均呈现典型空间特征差异的6处亚热带湿地土壤样品中的16S r RNA基因进行绝对定量。16S r RNA基因绝对拷贝数与土壤微生物生物量碳具有显著的线性相关性(R2=0.694,P0.001),表明内参校正后的16S r RNA基因绝对拷贝数可以准确反映单位质量土壤中微生物的丰度。【结论】内参基因加标法可以对DNA提取得率以及腐殖酸对PCR扩增的抑制性进行校正,从而提高绝对定量的准确性。基于内参基因加标法的目标基因绝对定量PCR检测,可作为土壤微生物生物量测量,以及微生物功能基因绝对丰度定量的一种核酸检测方法。  相似文献   

13.
环境样品中DNA的分离纯化和文库构建   总被引:17,自引:1,他引:16  
采用研磨 /冻融和SDS/蛋白酶K热处理等理化方法 ,直接从性质不同的环境样品中提取和纯化混合基因组DNA。所获得纯品DNA的产量为每克样品 2~ 1 6μg。对纯品DNA进行限制性内切酶处理后 ,构建了以pUC1 8为载体的DNA文库。建库效率为从每克环境样品获得约 1 0 3~ 1 0 4 个含 3~ 8kb外源随机插入片段的克隆。通过DNA序列测定和基因注释 ,对从文库中随机选取的克隆进行了分析 ,发现外源插入片段均含序列未见报道的新基因。本文所做的尝试对于保存、研究和开发未培养微生物基因资源具有意义  相似文献   

14.
A major issue in the use of mammalian cell culture in biopharmaceutical manufacturing is the removal of process related impurities, such as residual host cell DNA, during the product purification process. To ensure that sufficient DNA removal is achieved during purification, it is essential to have an accurate and sensitive assay for host cell DNA. The quantitative polymerase chain reaction (QPCR) is widely used for this purpose; however, the extent to which the choice of QPCR gene target can have an impact on final results requires further understanding. In the present study, we examined the relationship between the genomic copy number of eight different Chinese Hamster ovary (CHO) gene targets and the sensitivity and accuracy afforded by those targets in a residual host cell DNA QPCR assay. We also evaluated the use of each gene target for accurate measurement of residual DNA clearance using in-process purification samples from two CHO production cell lines. Our results revealed a correlation between gene target abundance and the potential sensitivity for use in a QPCR assay. However, we found that higher copy number gene targets do not provide the highest measurement or reveal the largest clearance of residual host cell DNA from purification samples. These findings suggest that different DNA sequences may clear or degrade at differential rates and highlight unexpected considerations that must be made in the choice of QPCR gene target when designing QPCR assays.  相似文献   

15.
The clinical need for high-throughput typing methods of single-nucleotide polymorphisms (SNPs) has been increasing. Conventional methods do not perform well enough in terms of speed and accuracy to process a large number of samples, as in clinical testing. We report a new DNA microarray method that uses hybridization protection assay (HPA) by acridinium-ester-labeled DNA probes. Probes were immobilized on the bottom of streptavidin-coated microtiter plates by streptavidin-biotin binding. We studied aldehyde dehydrogenase 2 (ALDH2) genotyping using two probes, discriminating A/G polymorphism. We also designed four probes to type the Alzheimer's disease-related gene ApoE, which has three genotypes (ApoE2, 3, and 4) determined by two SNP loci (C/T polymorphism). SNP analysis of the ALDH2 gene or the ApoE gene from human genome samples by solid-phase HPA was successful. Unlike other methods, the microarray by HPA does not require a washing step and can be completed within 30min. It also has advantages in discriminating one-base mismatch in targets. These characteristics make it a good candidate for practical SNP analysis of disease-related genes or drug-metabolizing enzymes in large numbers of samples.  相似文献   

16.
Noninvasively collected primate feces have been shown to provide a useful source of mitochondrial DNA for sequencing and nuclear microsatellite DNA for size analysis. In this study, single-copy nuclear DNA sequences were obtained from noninvasively collected fecal samples of two species of wild tamarins, Saguinus fuscicollis and S. mystax, in the context of a project on the functional utility of color vision. Noninvasive genotyping of the X-linked opsin gene is important for future studies of selection and adaptation at this locus in a number of primate species. The wide range of techniques that can now be applied successfully to DNA extracted from feces introduces a broad spectrum of potential genetic studies that can be undertaken on primates, without the need for intrusive or invasive methods.  相似文献   

17.
Seals and commercial fisheries are potential competitors for fish and cephalopods. Research into the diet of British seal species has been based on conventional dietary analyses, but these methods often do not allow assignment of species identity to scat samples. We present a protocol for obtaining DNA from seal scat (faecal) samples which can be used in polymerase chain reactions to amplify both nuclear and mitochondrial DNA. This can provide a method of identifying the species, sex and individual identity of the seal, from a particular scat sample. Combined with conventional dietary analyses these techniques will allow us to assess sources of variation in seal diet composition.
Scat samples have been collected from intertidal haul-out sites around the inner Moray Firth, north-east Scotland. We have assessed methods to extract and purify faecal DNA, a combination of DNA from the individual seal, prey items, and gut bacteria, for use in PCR. Controls using faecal and blood samples from the same individual have enabled microsatellite primer sets from four pinniped species to be tested. Approximately 200 scat samples have been examined for species identity and individual matches. This study will provide essential information for the assessment of interactions between seals and commercial or recreational fisheries.  相似文献   

18.
《Epigenetics》2013,8(1):31-39
Osteosarcoma is the most common primary malignant bone tumor in children. Validated biological markers for disease prognosis available at diagnosis are lacking. No genome-wide DNA methylation studies linked to clinical outcomes have been reported in osteosarcoma to the best of our knowledge. To address this, we tested the methylome at over 1.1 million loci in 15 osteosarcoma biopsy samples obtained prior to the initiation of therapy and correlated these molecular data with disease outcomes. At more than 17% of the tested loci, samples obtained from patients who experienced disease relapse were more methylated than those from patients who did not have recurrence while patients who did not experience disease relapse had more DNA methylation at fewer than 1%. In samples from patients who went on to have recurrent disease, increased DNA methylation was found at gene bodies, intergenic regions and empirically-annotated candidate enhancers, whereas candidate gene promoters were unusual for a more balanced distribution of increased and decreased DNA methylation with 6.6% of gene promoter loci being more methylated and 2% of promoter loci being less methylated in patients with disease relapse. A locus at the TLR4 gene demonstrates one of strongest associations between DNA methylation and 5 y event-free survival (P-value = 1.7 × 10?6), with empirical annotation of this locus showing promoter characteristics. Our data indicate that DNA methylation information has the potential to be predictive of outcome in pediatric osteosarcoma, and that both promoters and non-promoter loci are potentially informative in DNA methylation studies.  相似文献   

19.
Osteosarcoma is the most common primary malignant bone tumor in children. Validated biological markers for disease prognosis available at diagnosis are lacking. No genome-wide DNA methylation studies linked to clinical outcomes have been reported in osteosarcoma to the best of our knowledge. To address this, we tested the methylome at over 1.1 million loci in 15 osteosarcoma biopsy samples obtained prior to the initiation of therapy and correlated these molecular data with disease outcomes. At more than 17% of the tested loci, samples obtained from patients who experienced disease relapse were more methylated than those from patients who did not have recurrence while patients who did not experience disease relapse had more DNA methylation at fewer than 1%. In samples from patients who went on to have recurrent disease, increased DNA methylation was found at gene bodies, intergenic regions and empirically-annotated candidate enhancers, whereas candidate gene promoters were unusual for a more balanced distribution of increased and decreased DNA methylation with 6.6% of gene promoter loci being more methylated and 2% of promoter loci being less methylated in patients with disease relapse. A locus at the TLR4 gene demonstrates one of strongest associations between DNA methylation and 5 y event-free survival (P-value = 1.7 × 10−6), with empirical annotation of this locus showing promoter characteristics. Our data indicate that DNA methylation information has the potential to be predictive of outcome in pediatric osteosarcoma, and that both promoters and non-promoter loci are potentially informative in DNA methylation studies.  相似文献   

20.
, , and 1992. Detection of pathogenic Entamoeba histolytica DNA in liver abscess fluid by polymerase chain reaction. International Journal for Parasitology 22: 1193–1196. A sensitive method for detection of pathogenic Entamoeba histolytica DNA in drained fluids from liver abscess patients, using the polymerase chain reaction (PCR), has been developed. The PCR employs oligonucleotide primers specific for the gene encoding the 30 kDa molecule of pathogenic E. histolytica. Liver abscess fluids (19 samples), from 14 patients with a presumptive amebic liver abscess, were examined microscopically and by the PCR method. Only two of the 19 samples were positive microscopically, whereas all 19 samples tested positive by PCR. This technique can be used to confirm the diagnosis of amebic liver abscess.  相似文献   

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