| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1020642336 |
| P356 | DOI | 10.1007/S00232-010-9276-Z |
| P2888 | exact match | https://scigraph.springernature.com/pub.10.1007/s00232-010-9276-z |
| P698 | PubMed publication ID | 20640850 |
| P5875 | ResearchGate publication ID | 45272935 |
| P2093 | author name string | M Pavlin | |
| M Kanduser | |||
| K Flisar | |||
| P2860 | cites work | Electrophoretic component of electric pulses determines the efficacy of in vivo DNA electrotransfer. | Q50751277 |
| Importance of association between permeabilization and electrophoretic forces for intramuscular DNA electrotransfer | Q61445610 | ||
| Mechanisms of in Vivo DNA Electrotransfer: Respective Contributions of Cell Electropermeabilization and DNA Electrophoresis | Q63185090 | ||
| Gene transfer into mouse lyoma cells by electroporation in high electric fields | Q24556501 | ||
| Nonviral gene therapy: promises and challenges | Q33840998 | ||
| Electric field-mediated transport of plasmid DNA in tumor interstitium in vivo | Q33914555 | ||
| Direct visualization at the single-cell level of electrically mediated gene delivery | Q34008999 | ||
| Electrically induced DNA uptake by cells is a fast process involving DNA electrophoresis | Q34087992 | ||
| Electroporation and electrophoretic DNA transfer into cells. The effect of DNA interaction with electropores | Q34090147 | ||
| Phase I trial of interleukin-12 plasmid electroporation in patients with metastatic melanoma | Q34887442 | ||
| Electroporation-enhanced nonviral gene transfer for the prevention or treatment of immunological, endocrine and neoplastic diseases | Q36447098 | ||
| Electrically-assisted nucleic acids delivery to tissues in vivo: where do we stand? | Q36638787 | ||
| Gene electrotransfer: from biophysical mechanisms to in vivo applications : Part 1- Biophysical mechanisms. | Q39310374 | ||
| Control by pulse parameters of electric field-mediated gene transfer in mammalian cells | Q39454885 | ||
| Efficiency of high- and low-voltage pulse combinations for gene electrotransfer in muscle, liver, tumor, and skin. | Q39934526 | ||
| Synthesis and application of a non-viral gene delivery system for immunogene therapy of cancer | Q40354978 | ||
| Electroporator with automatic change of electric field direction improves gene electrotransfer in-vitro. | Q42425117 | ||
| Genetic immunization is a simple method for eliciting an immune response | Q43857336 | ||
| Gene therapy. Safer and virus-free? | Q45734702 | ||
| Electromobility of plasmid DNA in tumor tissues during electric field-mediated gene delivery | Q45889294 | ||
| Mechanisms involved in gene electrotransfer using high- and low-voltage pulses--an in vitro study | Q47288400 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 75-79 | |
| P577 | publication date | 2010-07-18 | |
| P1433 | published in | Journal of Membrane Biology | Q6295550 |
| P1476 | title | The role of electrophoresis in gene electrotransfer | |
| P478 | volume | 236 |
| Q39678108 | Analysis and comparison of electrical pulse parameters for gene electrotransfer of two different cell lines |
| Q39586211 | Changing the direction and orientation of electric field during electric pulses application improves plasmid gene transfer in vitro |
| Q35229556 | Comparison of flow cytometry, fluorescence microscopy and spectrofluorometry for analysis of gene electrotransfer efficiency |
| Q40811874 | Comparison of two automatic cell-counting solutions for fluorescent microscopic images |
| Q44939380 | Effect of different parameters used for in vitro gene electrotransfer on gene expression efficiency, cell viability and visualization of plasmid DNA at the membrane level |
| Q50492982 | Electric field orientation for gene delivery using high-voltage and low-voltage pulses. |
| Q38446172 | Electrotransfection and lipofection show comparable efficiency for in vitro gene delivery of primary human myoblasts |
| Q38794038 | Gene Electrotransfer: A Mechanistic Perspective |
| Q50502663 | Investigating relationship between transfection and permeabilization by the electric field and/or the Pluronic® L64 in vitro and in vivo. |
| Q38430493 | Modelling FUS Mislocalisation in an In Vitro Model of Innervated Human Muscle. |
| Q33562379 | New insights into the mechanisms of gene electrotransfer--experimental and theoretical analysis |
| Q41569285 | Numerical optimization of gene electrotransfer into muscle tissue |
| Q36673385 | Optimization of The Electroporation Conditions for Transfection of Human Factor IX into The Goat Fetal Fibroblasts |
| Q49589382 | Physical Methods for Drug and Gene Delivery Through the Cell Plasma Membrane. |
| Q30410734 | Physical methods for intracellular delivery: practical aspects from laboratory use to industrial-scale processing. |
| Q26852597 | The impact of non-electrical factors on electrical gene transfer |
| Q42966288 | Use of collagen gel as a three-dimensional in vitro model to study electropermeabilization and gene electrotransfer |
| Q51713721 | siRNA delivery into cultured primary human myoblasts--optimization of electroporation parameters and theoretical analysis. |
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