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Supercoiled Minivector DNA resists shear forces associated with gene therapy delivery

机译：超螺旋Minivector DNA可抵抗与基因治疗相关的剪切力

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Supercoiled DNAs varying from 281 to 5302 bp were subjected to shear forces generated by aerosolization or sonication. DNA shearing strongly correlated with length. Typical sized plasmids (⩾3000 bp) degraded rapidly. DNAs 2000–3000 bp persisted ∼10 min. Even in the absence of condensing agents, supercoiled DNA <1200 bp survived nebulization, and increased forces of sonication were necessary to shear it. Circular vectors were considerably more resistant to shearing than linear vectors of the same length. DNA supercoiling afforded additional protection. These results show the potential of shear-resistant Minivector DNAs to overcome one of the major challenges associated with gene therapy delivery.

机译：281至5302 bp的超螺旋DNA受到雾化或超声处理产生的剪切力。 DNA剪切与长度密切相关。典型大小的质粒（⩾3000bp）迅速降解。 2000–3000 bp的DNA持续约10 min。即使没有缩合剂，<1200 bp的超螺旋DNA也能幸免于雾化，因此需要增加超声处理的力来剪切它。圆形矢量比相同长度的线性矢量更耐剪切。 DNA超螺旋提供了额外的保护。这些结果表明，抗剪切力的Minivector DNA克服了与基因疗法的应用相关的主要挑战之一的潜力。

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期刊名称 NPG Open Access
作者
D J Catanese Jr; J M Fogg; D E Schrock II; B E Gilbert; L Zechiedrich;
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年(卷),期 -1(19),1
年度 -1
页码 94–100
总页数 7
原文格式 PDF
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关键词
Minivector DNA Minicircle hydrodynamic shear nebulized aerosolized lung delivery;

机译：Minivector DNA;Minicircle;流体动力剪切;雾化;雾化;肺部输送;

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专利

1. Supercoiled Minivector DNA resists shear forces associated with gene therapy delivery. [J] . Catanese DJ Jr, Fogg JM, Schrock DE 2nd, Gene therapy . 2012,第1期

机译：Supercoiled Minivector DNA可抵抗与基因治疗相关的剪切力。
2. BIOPHYSICS MEETS GENE THERAPY: HOW EXPLORING SUPERCOILING-DEPENDENT STRUCTURAL CHANGES IN DNA LED TO THE DEVELOPMENT OF MINIVECTOR DNA [J] . Lynn Zechiedrich, Jonathan M. Fogg Technology and innovation . 2019,第4期

机译：生物物理学符合基因治疗：DNA中依赖超级概率的结构变化如何导致小型灭菌DNA的发展
3. Nanoparticle mediated delivery of pure P53 supercoiled plasmid DNA for gene therapy [J] . Gaspar V.M., Correia I.J., Sousa A., Journal of Controlled Release: Official Journal of the Controlled Release Society . 2011,第2期

机译：纳米粒子介导的纯P53超螺旋质粒DNA的基因治疗
4. Structural characterization of novel micro- and nano-scale non-viral DNA delivery systems for cutaneous gene therapy [C] . M. Foldvari, I. Badea, S. Wettig, NSTI Nanotechnology Conference and Trade Show(NSTI Nanotech 2005) vol.1; 20050508-12; Anaheim,CA(US) . 2005

机译：用于皮肤基因治疗的新型微米和纳米级非病毒DNA递送系统的结构表征
5. A DNA delivery system using sea urchin sperm specific histone H1 for DNA vaccine development and gene therapy. [D] . Okoroukwu, Odilia. 2009

机译：使用海胆精子特异组蛋白H1进行DNA疫苗开发和基因治疗的DNA传递系统。
6. Safeguarding Stem Cell-Based Regenerative Therapy against IatrogenicCancerogenesis: Transgenic Expression of DNASE1DNASE1L3 DNASE2 DFFBControlled By POLA1 Promoter in Proliferating and DirectedDifferentiation Resisting Human Autologous Pluripotent Induced Stem Cells Leadsto their Death [O] . Marek Malecki, Christine LaVanne, Dominique Alhambra, -1

机译：预防干细胞再生疗法对医源性的影响致癌作用：DNASE1的转基因表达DNASE1L3DNASE2DFFB由POLA1启动子控制的增殖和定向抵抗分化的人类自体多能干细胞诱导到他们的死
7. Supercoiled Minivector DNA resists shear forces associated with gene therapy delivery [O] . Catanese, D J, Fogg, J M, Schrock, D E, 2011

机译：超螺旋Minivector DNA可抵抗与基因治疗相关的剪切力
8. DNA damage produced by exposure of supercoiled plasmid DNA to high- and low-LET ionizing radiation: Effects of hydroxyl radical quenchers. DNA breakage, neutrons, OH radicals [R] . Peak, J. G. , Ito, T. , Peak, M. J. , 1994

机译：超螺旋质粒DNa暴露于高LET和低LET电离辐射产生的DNa损伤：羟基自由基猝灭剂的影响。 DNa断裂，中子，OH自由基

Supercoiled Minivector DNA resists shear forces associated with gene therapy delivery

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