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1.
High-cost of oligonucleotides is one of the major problems to low-cost gene synthesis. Although DNA oligonucleotides from cleavable DNA microchips has been adopted for the low-cost gene synthesis, construction of DNA molecules larger than 1 kb has been largely hampered due to the difficulties of DNA assembly associated with the negligible quantity of chip oligonucleotides. Here we report a hierarchical method for the synthesis of large genes using oligonucleotides from programmable DNA microchips. Using this hierarchical method, we successfully synthesized 1056 bp Dpo4 and 2325 bp Pfu DNA polymerase genes as models. This hierarchical strategy can be further expanded for the syntheses of multiple large genes in a scalable manner. 相似文献
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Shabi U Kaplan S Linshiz G Benyehezkel T Buaron H Mazor Y Shapiro E 《Systems and synthetic biology》2010,4(3):227-236
Polymerase Chain Reaction (PCR) is the DNA-equivalent of Gutenberg’s movable type printing, both allowing large-scale replication of a piece of text. De novo DNA synthesis is the DNA-equivalent of mechanical typesetting, both ease the setting of text for replication. What is the DNA-equivalent of the word processor? Biology labs engage daily in DNA processing—the creation of variations and combinations of existing DNA—using a plethora of manual labor-intensive methods such as site-directed mutagenesis, error-prone PCR, assembly PCR, overlap extension PCR, cleavage and ligation, homologous recombination, and others. So far no universal method for DNA processing has been proposed and, consequently, no engineering discipline that could eliminate this manual labor has emerged. Here we present a novel operation on DNA molecules, called Y, which joins two DNA fragments into one, and show that it provides a foundation for DNA processing as it can implement all basic text processing operations on DNA molecules including insert, delete, replace, cut and paste and copy and paste. In addition, complicated DNA processing tasks such as the creation of libraries of DNA variants, chimeras and extensions can be accomplished with DNA processing plans consisting of multiple Y operations, which can be executed automatically under computer control. The resulting DNA processing system, which incorporates our earlier work on recursive DNA composition and error correction, is the first demonstration of a unified approach to DNA synthesis, editing, and library construction.
Electronic supplementary material
The online version of this article (doi:10.1007/s11693-010-9059-y) contains supplementary material, which is available to authorized users. 相似文献3.
DNA从头合成技术是指以寡核苷酸链为起始的合成DNA片段的技术,其不断进步是合成生物学快速发展的基石之一。常规使用的连接介导的DNA合成技术和PCR介导的DNA合成技术日益成熟,精确合成长度已经达到0.5—1kb。微阵列介导的DNA合成技术不断发展,其低成本、高通量的特点吸引了人们的注意;而酵母体内DNA合成技术的成功探索也为体外DNA合成提供了一种补偿方法。DNA合成在优化密码子用于异源表达、构建异源代谢途径、合成人工基因组以及合成减毒病毒用于疫苗研制等方面有广泛应用。综述了DNA从头合成技术的研究进展,并介绍了DNA合成的前沿应用。 相似文献
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Anthony J. Berdis 《Biochimica et Biophysica Acta - Proteins and Proteomics》2010,1804(5):1029-1031
This Special Thematic Issue explores the molecular properties of DNA polymerases as extraordinary biological catalysts. In this short introductory chapter, I briefly highlight some of the most important concepts from the articles contained within this Special Issue. The contents of this Special Issue are arranged into distinct sub-categories corresponding to mechanistic studies of faithful DNA polymerization, studies of "specialized" DNA polymerases that function on damaged DNA, and DNA polymerases that are of therapeutic importance against various diseases. Emphasis is placed on understanding the dynamic cellular roles and biochemical functions of DNA polymerases, and how their structure and mechanism impact their cellular roles. 相似文献
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Dongkye Lee 《Nucleosides, nucleotides & nucleic acids》2015,34(6):424-432
We report the synthesis, incorporation into oligonucleotides, and base-pairing properties of the 2-thio-variant of iso-guanine. Iso-guanine is the purine component of a nonstandard base pair with 5-methyl-iso-cytosine. The 2-thio-iso-guanine?5-methyl-iso-cytosine base pair is found to have similar stability to an adenine?thymine pair. 相似文献
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合成生物学 总被引:1,自引:0,他引:1
近年来用化学合成的手段合成生物物质的研究进展很快。有感染活力的小儿麻痹症病毒RNA与φX-174噬菌体基因先后合成成功。估计2006年可能会有能合成1百万bp DNA的仪器问世。此外,目前已能向蛋白质中引入80种非常见氨基酸,从而使蛋白质获得新的性质。化学合成的进展使合成与改造生命成为现实,这对研究生物学基本规律有很大的意义,但这也是一把“双刃剑”,带来伦理与反恐的问题及对可能的潜在威胁的担忧。2004年6月在美国麻省理工学院举行了第一届合成生物学国际会议。2005年8月在美国旧金山举行的合成生物学会议,讨论了生物合成这个领域对药物发展、细胞重编程、生物机器人等方面的潜在意义。 相似文献
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Using DNA molecules to construct a structural scaffold for nanotechnology is largely accepted. In this article, we report on two methods for constructing a figure-eight structure of DNA molecules having a relatively high yield that could be used further as a scaffold for nanotechnology applications. In the first method, two plasmids were constructed that, on digestion with a restriction endonuclease producing nicks in the corresponding sites and after heating, produced complementary single-stranded sequences, enabling the plasmids to hybridize to each other and forming a figure-eight structure. The formation of the figure-eight structure was analyzed by restriction analysis and gel electrophoresis as well as by atomic force microscopy. The second method makes use of the bacteriophage M13 that is obtained as either a single- or double-stranded circular DNA molecule. Two M13 molecules harboring complementary sequences were constructed and produced a figure-eight structure on hybridization. The methods described here could be used further for the construction of nanoelectronic devices. 相似文献
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Background
Gene correction is an alternative approach to replacement gene therapy. By correcting mutations within the genome, some of the barriers to effective gene therapy are avoided. Homologous nucleic acid sequences can correct mutations by inducing recombination or mismatch repair. Recently, encouraging data have been presented using both short DNAfragments (SDFs) and RNA–DNA oligonucleotides (RDOs) in experimental strategies to realize clinical gene correction.Methods
The delivery of labelled SDFs and RDOs to a variety of cell lines was tested using both FACS analysis and confocal microscopy. A GFP‐based reporter system was constructed, containing a nonsense mutation, to allow quantitation of gene correction in living cells. This reporter was used to compare efficiencies of functional gene correction using SDFs and RDOs in arange of mammalian cell lines.Results
The delivery experiments highlight the inefficient delivery of SDFs and RDOs to the nucleus using polyethylenimine (PEI) transfection. This study compared the episomal correction efficiency of the reporter plasmid mediated by SDFs and RDOs within different cell types; low levels of functional correction were detected in cell culture.Conclusions
Whilst delivery of PEI‐complexed SDFs or RDOs to the cell is highly effective, nuclear entry appears to be a limiting factor. SDFs elicited episomal GFP correction across a range of cell lines, whereas RDOs only corrected the reporter in a cell line that overexpresses RAD51. Copyright © 2002 John Wiley & Sons, Ltd.12.
合成生物学目前在全球得到迅猛发展。在此专刊中,综述了一些相关技术在合成生物学领域的进展,其中有:链霉菌无痕敲除方法、基因合成技术、DNA组装新方法、最小化基因组的方法及分析、合成生物系统的组合优化。也讨论了应用合成生物学策略优化光合蓝细菌底盘、产溶剂梭菌分子遗传操作技术、蛋白质预算(Protein budget)作为合成生物学的成本标尺。最后,用几个例子说明了合成生物学的应用,包括复杂天然产物合成人工生物系统的设计与构建、微生物木糖代谢途径改造制备生物基化学品以及构建酿酒酵母工程菌合成香紫苏醇。 相似文献
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合成生物学是一个拥有巨大潜力的新兴学科,合成生物学技术的发展将会对未来生物、医药、农业、能源、材料和环保等方面产生巨大的推进作用。基因合成是合成生物学中最基本和使用最多的一种技术手段,合成生物学的快速发展对基因合成能力提出了空前需求。综述基因合成技术的发展历史、现状和未来趋势,探讨基因合成技术存合成生物学以及整个生命科学研究中的应用和重要意义。 相似文献
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The DNA nanorobot is a hollow hexagonal nanometric device, designed to open in response to specific stimuli and present cargo sequestered inside. Both stimuli and cargo can be tailored according to specific needs. Here we describe the DNA nanorobot fabrication protocol, with the use of the DNA origami technique. The procedure initiates by mixing short single-strand DNA staples into a stock mixture which is then added to a long, circular, single-strand DNA scaffold in presence of a folding buffer. A standard thermo cycler is programmed to gradually lower the mixing reaction temperature to facilitate the staples-to-scaffold annealing, which is the guiding force behind the folding of the nanorobot. Once the 60 hr folding reaction is complete, excess staples are discarded using a centrifugal filter, followed by visualization via agarose-gel electrophoresis (AGE). Finally, successful fabrication of the nanorobot is verified by transmission electron microscopy (TEM), with the use of uranyl-formate as negative stain. 相似文献
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全球数据量快速增长,成为数字经济发展的核心引擎,但传统数据存储介质受到功耗、体积、成本等限制,难以满足不断增长的数据存储需求。以脱氧核糖核酸(deoxyribonucleic acid, DNA)分子作为存储介质的新型存储方式引起了国内外高度重视,世界主要国家均对其研究进行了顶层规划,部署了一系列重要科研计划。但是,DNA数据存储作为一个新兴交叉研究领域,其发展的“源”与“流”仍存在需要深入分析的问题。针对该问题,从信息、半导体与合成生物学交叉融合的角度深入挖掘DNA数据存储发展的源头,对近年来国际上主要国家与地区在DNA数据存储领域的发展规划进行分析归纳,梳理国内外的科研项目规划布局,尤其是美国“半导体合成生物学联盟”推动的基础研究项目、美国国防部高级研究计划局(Defense Advanced Research Projects Agency, DARPA)与美国情报高级研究计划局(Intelligence Advanced Research Projects Activity, IARPA)推动的面向应用的集中攻关项目、欧盟的地平线2020计划以及我国的重点研发计划等。通过比较可... 相似文献
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合成生物学是综合了科学与工程的一个崭新的生物学研究领域,为生命现象及其运动规律的解析提供了一种采用“白下而上”合成策略的正向工程学的研究思路和方法手段,在经济和社会发展中具有巨大的应用开发潜力。近年来,DNA合成与系统生物学技术的发展使生命系统复杂基因回路的设计、合成与组装逐步成为可能,并应用于生物基化学品、生物燃料、医药中间体、保健产品的生产和环境保护等领域。但是,合成生物学的研究仍然面临科学、技术和伦理的挑战,只有积极地应对这些问题,在加大研究开发支持力度的同时,做好必要的风险监管,才能真正把握合成生物学发展带来的历史机遇。 相似文献
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2010年,蕈状支原体Mycoplasma mycoides的人工合成,迎来了合成生物学的崭新时代.这种突破性的进展主要得益于酵母自身强大的DNA体内重组能力.近几年来,除了利用体内重组的DNA大片段拼接技术,基于连接或聚合思想的不同尺度的DNA体外组装方法也相继出现,如Biobrick\Bglbrick、SLIC与Gibson等温一步法等,这些方法的应用加快了合成生物学功能元件库、生物合成途径乃至微生物染色体的人工构建.事实上,目前所建立的各种DNA组装方法,均是由DNA分子拼接理念(包括两分子衔接思想与多片段组装模式)衍生而来.文中将在介绍DNA组装基本理念的基础上,对体内、体外主要的DNA组装方法进行简要梳理,希望为不同类型的合成生物学功能器件及生物合成途径的构造提供参考与借鉴. 相似文献
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BACKGROUND: Single-stranded oligonucleotides (ssODN) can induce site-specific genetic alterations in selected mammalian cells, but the involved mechanisms are not known. METHODS: We corroborate the potential of genomic sequence correction by ssODN using chromosomally integrated mutated enhanced green fluorescent protein (mEGFP) reporter genes in CHO cell lines. The role of integration site was studied in a panel of cell clones with randomly integrated reporters and in cell lines with site-specific single copy integration of the mEGFP reporter in opposite orientations. Involvement of end modification was examined on ssODN with unprotected or phosphorothioate (PS) protected ends. Also ssODN containing octyl or hexaethylene glycol (HEG) end blocking groups were tested. The significance of DNA synthesis was investigated by cell cycle analysis and by the DNA polymerases alpha, delta and epsilon inhibitor aphidicolin. RESULTS: Correction rates of up to 5% were observed upon a single transfection of ssODN. Independent of the mEGFP chromosomal integration site and of its orientation towards the replication fork, antisense ssODN were more effective than sense ssODN. When ssODN ends were blocked by either octyl or HEG groups, correction rates were reduced. Finally, we demonstrate a dependence of the process on DNA synthesis. CONCLUSIONS: We show that, on a chromosomal level, the orientation of the replication fork towards the targeted locus is not central in the strand bias of ssODN-based targeted sequence correction. We demonstrate the importance of accessible ssODN ends for sequence alteration. Finally, we provide evidence for the involvement of DNA synthesis in the process. 相似文献
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Ping Xie 《Journal of theoretical biology》2009,259(3):434-122
The fidelity of DNA synthesis by DNA polymerase is significantly increased by a mechanism of proofreading that is performed at the exonuclease active site separate from the polymerase active site. Thus, the transition of DNA between the two active sites is an important activity of DNA polymerase. Here, based on our proposed model, the rates of DNA transition between the two active sites are theoretically studied. With the relevant parameters, which are determined from the available crystal structure and other experimental data, the calculated transfer rate of correctly base-paired DNA from the polymerase to exonuclease sites and the transfer rate after incorporation of a mismatched base are in good agreement with the available experimental data. The transfer rates in the presence of two and three mismatched bases are also consistent with the previous experimental data. In addition, the calculated transfer rate from the exonuclease to polymerase sites has a large value even with the high binding affinity of 3′-5′ ssDNA for the exonuclease site, which is also consistent with the available experimental value. Moreover, we also give some predictive results for the transfer rate of DNA containing only A:T base pairs and that of DNA containing only G:C base pairs. 相似文献