QUANTIFYING THE EFFECTS OF EXTRACELLULAR CONDUCTIVITY ON TRANSPORT DURING ELECTROPORATION

机译：量化细胞外电导率对电穿孔过程中运输的影响

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Electroporation is an effective means to permeabilize the cell membrane and deliver biologically active molecules (such DNA, RNA, dyes, etc..) into the cell cytoplasm, while maintaining cell viability and functionality [1]. Despite extensive research, electroporation still suffers from major drawbacks such as high cell death and low delivery efficiency. In the past, studies focused mainly on permeabili-zation of the membrane during electroporation while transport of molecules from one side of the membrane to the other has been overlooked. Previous experimental work demonstrated an inverse relation between the electrical conductivity of the extracellular buffer and total concentration delivered into cells [2]. This inverse correlation suggests that additional molecular transport mechanisms, besides diffusion, govern the delivery into cells.

机译：电穿孔是使细胞膜透化并将具有生物活性的分子（例如DNA，RNA，染料等）传递到细胞质中的有效方法，同时又能保持细胞的活力和功能性[1]。尽管进行了广泛的研究，电穿孔仍然遭受诸如高细胞死亡和低递送效率的主要缺点。过去，研究主要集中在电穿孔过程中膜的通透性上，而分子从膜的一侧到另一侧的运输却被忽略了。先前的实验工作证明了细胞外缓冲液的电导率与输送到细胞中的总浓度之间存在反比关系[2]。这种反相关关系表明，除了扩散以外，其他分子转运机制还控制着向细胞的传递。

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《ASME summer bioengineering conference;SBC2011》|2012年|p.571-572|共2页
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Mohamed M. Sadik; Jianbo Li; Jerry W. Shan; David I. Shreiber; Hao Lin;
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中图分类人体工程学;
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1. The effect of extracellular conductivity on electroporation-mediated molecular delivery [J] . LiJ., TanW., YuM., Biochimica et biophysica acta. Biomembranes . 2013,第2期

机译：细胞外电导率对电穿孔介导的分子传递的影响
2. Theoretical and experimental analysis of conductivity, ion diffusion and molecular transport during cell electroporation - Relation between short-lived and long-lived pores [J] . Pavlin M, Miklavcic D Bioelectrochemistry . 2008,第1期

机译：细胞电穿孔过程中电导率，离子扩散和分子迁移的理论和实验分析-短寿命和长寿命孔之间的关系
3. Aromatic Amino Acids Required for Pili Conductivity and Long-Range Extracellular Electron Transport in Geobacter sulfurreducens [J] . Madeline Vargas, Nikhil S. Malvankar, Pier-Luc Tremblay, MBio . 2013,第2期

机译：减少土壤杆菌中硫的导电性和远距离细胞外电子迁移所需的芳香族氨基酸
4. QUANTIFYING THE EFFECTS OF EXTRACELLULAR CONDUCTIVITY ON TRANSPORT DURING ELECTROPORATION [C] . Mohamed M. Sadik, Jianbo Li, Jerry W. Shan, ASME Bioengineering Conference . 2011

机译：量化细胞外电导率在电穿孔期间运输的影响
5. Biophysical effects of dimyristoylphosphatidylserine on electroporation-induced skin transport regions [D] . Sckolnick, Maria 2007

机译：二肉豆蔻酰基磷脂酰丝氨酸对电穿孔诱导的皮肤转运区域的生物物理作用
6. Tissue Electroporation: Quantification and Analysis of Heterogeneous Transport in Multicellular Environments [O] . Paul J. Canatella, Matthew M. Black, David M. Bonnichsen, 2004

机译：组织电穿孔：多细胞环境中异构运输的定量和分析
7. Effects of extracellular medium conductivity on cell response in the context of sub-microsecond range calcium electroporation [O] . Vitalij Novickij, Nina Rembialkowska, Gediminas Staigvila, 2020

机译：细胞外介质电导率对亚微秒钙电穿孔背景下细胞响应的影响
8. Microbial Transport through Porpus Media: The Effects of Hydraulic Conductivity and Injection Velocity [R] . Marlow, H. J., Duston, K. L., Wiesner, M. R., 1992

机译：通过porpus介质的微生物运输：水力传导率和注入速度的影响

QUANTIFYING THE EFFECTS OF EXTRACELLULAR CONDUCTIVITY ON TRANSPORT DURING ELECTROPORATION

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