High-throughput nuclear delivery and rapid expression of DNA via mechanical and electrical cell-membrane disruption
出版年份 2017 全文链接
标题
High-throughput nuclear delivery and rapid expression of DNA via mechanical and electrical cell-membrane disruption
作者
关键词
-
出版物
Nature Biomedical Engineering
Volume 1, Issue 3, Pages 0039
出版商
Springer Nature
发表日期
2017-03-09
DOI
10.1038/s41551-017-0039
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Modeling a Conventional Electroporation Pulse Train: Decreased Pore Number, Cumulative Calcium Transport and an Example of Electrosensitization
- (2016) Reuben S. Son et al. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING
- In vitro and ex vivo strategies for intracellular delivery
- (2016) Martin P. Stewart et al. NATURE
- ESCRT III repairs nuclear envelope ruptures during cell migration to limit DNA damage and cell death
- (2016) M. Raab et al. SCIENCE
- Nuclear envelope rupture and repair during cancer cell migration
- (2016) C. M. Denais et al. SCIENCE
- Live-cell protein labelling with nanometre precision by cell squeezing
- (2016) Alina Kollmannsperger et al. Nature Communications
- ESCRT-III controls nuclear envelope reformation
- (2015) Yolanda Olmos et al. NATURE
- Microfluidic squeezing for intracellular antigen loading in polyclonal B-cells as cellular vaccines
- (2015) Gregory Lee Szeto et al. Scientific Reports
- Electroporation-Based Technologies for Medicine: Principles, Applications, and Challenges
- (2014) Martin L. Yarmush et al. Annual Review of Biomedical Engineering
- Non-viral vectors for gene-based therapy
- (2014) Hao Yin et al. NATURE REVIEWS GENETICS
- Chimeric Antigen Receptor T Cells for Sustained Remissions in Leukemia
- (2014) Shannon L. Maude et al. NEW ENGLAND JOURNAL OF MEDICINE
- ESCRT Machinery Is Required for Plasma Membrane Repair
- (2014) A. J. Jimenez et al. SCIENCE
- Nanostraw–Electroporation System for Highly Efficient Intracellular Delivery and Transfection
- (2013) Xi Xie et al. ACS Nano
- Microfluidic electroporation for cellular analysis and delivery
- (2013) Tao Geng et al. LAB ON A CHIP
- Intracellular Tracking of Single-plasmid DNA Particles After Delivery by Electroporation
- (2013) Christelle Rosazza et al. MOLECULAR THERAPY
- A vector-free microfluidic platform for intracellular delivery
- (2013) A. Sharei et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- A brief overview of electroporation pulse strength–duration space: A region where additional intracellular effects are expected
- (2012) James C. Weaver et al. BIOELECTROCHEMISTRY
- Nonendocytic Delivery of Functional Engineered Nanoparticles into the Cytoplasm of Live Cells Using a Novel, High-Throughput Microfluidic Device
- (2012) Jungmin Lee et al. NANO LETTERS
- Molecularly self-assembled nucleic acid nanoparticles for targeted in vivo siRNA delivery
- (2012) Hyukjin Lee et al. Nature Nanotechnology
- A Laminar Flow Electroporation System for Efficient DNA and siRNA Delivery
- (2011) Zewen Wei et al. ANALYTICAL CHEMISTRY
- Nanochannel electroporation delivers precise amounts of biomolecules into living cells
- (2011) Pouyan E. Boukany et al. Nature Nanotechnology
- Direct visualization at the single-cell level of siRNA electrotransfer into cancer cells
- (2011) A. Paganin-Gioanni et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Vertical silicon nanowires as a universal platform for delivering biomolecules into living cells
- (2010) A. K. Shalek et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Progress and prospects: immune responses to viral vectors
- (2009) S Nayak et al. GENE THERAPY
- What is (Still not) Known of the Mechanism by Which Electroporation Mediates Gene Transfer and Expression in Cells and Tissues
- (2008) Jean-Michel Escoffre et al. MOLECULAR BIOTECHNOLOGY
- BAC TransgeneOmics: a high-throughput method for exploration of protein function in mammals
- (2008) Ina Poser et al. NATURE METHODS
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExploreFind the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
Search