Related references
Note: Only part of the references are listed.Applications of Chitosan-Alginate-Based Nanoparticles-An Up-to-Date Review
Adelina-Gabriela Niculescu et al.
NANOMATERIALS (2022)
Effect of Mixing Ratio of Oppositely Charged Block Copolymers on Polyion Complex Micelles for In Vivo Application
Noriko Nakamura et al.
POLYMERS (2021)
A statistical framework for determination of minimal plasmid copy number required for transgene expression in mammalian cells
Liangli Wang et al.
BIOELECTROCHEMISTRY (2021)
The effects of electroporation buffer composition on cell viability and electro-transfection efficiency
Joseph J. Sherba et al.
SCIENTIFIC REPORTS (2020)
Efficiency of Cytosolic Delivery with Poly(β-amino ester) Nanoparticles is Dependent on the Effective pKa of the Polymer
Denis Routkevitch et al.
ACS BIOMATERIALS SCIENCE & ENGINEERING (2020)
Redirecting Vesicular Transport to Improve Nonviral Delivery of Molecular Cargo
Mao Mao et al.
ADVANCED BIOSYSTEMS (2020)
A Critical Review of Electroporation as A Plasmid Delivery System in Mouse Skeletal Muscle
Emilia Sokolowska et al.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2019)
Double domain polyethylenimine-based nanoparticles for integrin receptor mediated delivery of plasmid DNA
Hossein Sadeghpour et al.
SCIENTIFIC REPORTS (2018)
Enhanced gene transfection efficiency by low-dose 25kDa polyethylenimine by the assistance of 1.8kDa polyethylenimine
Hui Zhang et al.
DRUG DELIVERY (2018)
Reprogramming human T cell function and specificity with non-viral genome targeting
Theodore L. Roth et al.
NATURE (2018)
Effect of Particle Size on Drug Loading and Release Kinetics of Gefitinib-Loaded PLGA Microspheres
Weiluan Chen et al.
MOLECULAR PHARMACEUTICS (2017)
Distinct effects of endosomal escape and inhibition of endosomal trafficking on gene delivery via electrotransfection
Lisa D. Cervia et al.
PLOS ONE (2017)
Improvement in Electrotransfection of Cells Using Carbon-Based Electrodes
Chun-Chi Chang et al.
CELLULAR AND MOLECULAR BIOENGINEERING (2016)
A Comparative Study of the Influence of Sugars Sucrose, Trehalose, and Maltose on the Hydration and Diffusion of DMPC Lipid Bilayer at Complete Hydration: Investigation of Structural and Spectroscopic Aspect of Lipid-Sugar Interaction
Arpita Roy et al.
LANGMUIR (2016)
The effect of nanoparticle size on in vivo pharmacokinetics and cellular interaction
Nazanin Hoshyar et al.
NANOMEDICINE (2016)
Highly acetylated tubulin permits enhanced interactions with and trafficking of plasmids along microtubules
M. A. Badding et al.
GENE THERAPY (2013)
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
Sasa Haberl et al.
JOURNAL OF GENE MEDICINE (2013)
The Possible Proton Sponge Effect of Polyethylenimine (PEI) Does Not Include Change in Lysosomal pH
Rikke V. Benjaminsen et al.
MOLECULAR THERAPY (2013)
Nano-Advantage in Enhanced Drug Delivery with Biodegradable Nanoparticles: Contribution of Reduced Clearance
Rajendra S. Kadam et al.
DRUG METABOLISM AND DISPOSITION (2012)
Electroporation delivery of DNA vaccines: prospects for success
Niranjan Y. Sardesai et al.
CURRENT OPINION IN IMMUNOLOGY (2011)
Multistage nanoparticle delivery system for deep penetration into tumor tissue
Cliff Wong et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2011)
Microtubule Acetylation Through HDAC6 Inhibition Results in Increased Transfection Efficiency
Erin E. Vaughan et al.
MOLECULAR THERAPY (2008)
Efficient gene transfection using chitosan-alginate core-shell nanoparticles
Jin-Oh You et al.
INTERNATIONAL JOURNAL OF NANOMEDICINE (2006)
Exploring polyethylenimine-mediated DNA transfection and the proton sponge hypothesis
A Akinc et al.
JOURNAL OF GENE MEDICINE (2005)
Regulation of the lysosome-associated membrane protein in a sucrose model of lysosomal storage
EL Isaac et al.
EXPERIMENTAL CELL RESEARCH (2000)
Share Paper
