scholarly article | Q13442814 |
P2093 | author name string | J C Weaver | |
R Langer | |||
M R Prausnitz | |||
J A Gimm | |||
C D Milano | |||
P2860 | cites work | Electrochemotherapy potentiation of antitumour effect of bleomycin by local electric pulses | Q34000544 |
A quantitative study of electroporation showing a plateau in net molecular transport | Q34019439 | ||
Electrically induced DNA uptake by cells is a fast process involving DNA electrophoresis | Q34087992 | ||
Effects of a high-voltage electrical impulse and an anticancer drug on in vivo growing tumors | Q34401265 | ||
Transfer of monoclonal antibodies into mammalian cells by electroporation | Q34541431 | ||
In vivo electroporation and stable transformation of skin cells of newborn mice by plasmid DNA | Q34573287 | ||
Hemolysis of human erythrocytes by transient electric field | Q35026512 | ||
Introduction of phalloidin labelled with fluorescein isothiocyanate into living polymorphonuclear leukocytes by electroporation | Q35223018 | ||
Electroporation of mammalian skin: a mechanism to enhance transdermal drug delivery | Q36658565 | ||
Enzyme stimulation upon fertilization is revealed in electrically permeabilized sea urchin eggs | Q37485831 | ||
Fluctuation of the Ca-sequestering activity of permeabilized sea urchin embryos during the cell cycle | Q37684485 | ||
Study of mechanisms of electric field-induced DNA transfection. I. DNA entry by surface binding and diffusion through membrane pores | Q39631500 | ||
Electroporation of the photosynthetic membrane: A study by intrinsic and external optical probes | Q39634101 | ||
Electropermeabilization of mammalian cells. Quantitative analysis of the phenomenon | Q39634780 | ||
Gaining access to the cytosol: the technique and some applications of electropermeabilization | Q39735660 | ||
Electroporation: a general phenomenon for manipulating cells and tissues | Q40908934 | ||
Cell electropermeabilization: a new tool for biochemical and pharmacological studies | Q40914744 | ||
A New Brain Tumor Therapy Combining Bleomycin with in Vivo Electropermeabilization | Q41541021 | ||
Evaluation of the electroinjection method for introducing proteins into living cells | Q41696536 | ||
Introduction of definite amounts of nonpermeant molecules into living cells after electropermeabilization: direct access to the cytosol | Q42804607 | ||
Electroporation: high frequency of occurrence of a transient high-permeability state in erythrocytes and intact yeast | Q43607921 | ||
Formation and resealing of pores of controlled sizes in human erythrocyte membrane | Q43881860 | ||
Very high cytotoxicity of bleomycin introduced into the cytosol of cells in culture | Q44073452 | ||
Reversible plasma membrane ultrastructural changes correlated with electropermeabilization in Chinese hamster ovary cells. | Q44537330 | ||
Formation and properties of aqueous leaks induced in human erythrocytes by electrical breakdown | Q44750712 | ||
Transient Gene Expression in Intact and Organized Rice Tissues | Q49170675 | ||
Specific electropermeabilization of leucocytes in a blood sample and application to large volumes of cells. | Q50877880 | ||
Preparation of erythrocyte ghosts by dielectric breakdown of the cell membrane | Q52883939 | ||
Energy of an Ion crossing a Low Dielectric Membrane: Solutions to Four Relevant Electrostatic Problems | Q57141010 | ||
Use of irreversible electrical breakdown of lipid bilayers for the study of interaction of membranes with surface active molecules | Q57793229 | ||
Introduction of large molecules into viable fibroblasts by electroporation: Optimization of loading and identification of labeled cellular compartments | Q57986802 | ||
Membrane electroporaton — fast molecular exchange by electroosmosis | Q67655753 | ||
Introduction of unlabeled proteins into living cells by electroporation and isolation of viable protein-loaded cells using dextran-fluorescein isothiocyanate as a marker for protein uptake | Q67696814 | ||
DNA transfection of Escherichia coli by electroporation | Q68129732 | ||
Introduction of antibody into viable cells using electroporation | Q68205928 | ||
Electroporation-mediated uptake of proteins into mammalian cells | Q68576331 | ||
Diffusion loading conditions determine recovery of protein synthesis in electroporated P3X63Ag8 cells | Q69021677 | ||
Temperature effects on resealing of electrically hemolysed rabbit erythrocytes | Q69023843 | ||
The number of molecules taken up by electroporated cells: quantitative determination | Q69108937 | ||
Uptake of fluorescence-labeled dextrans by 10T 1/2 fibroblasts following permeation by rectangular and exponential-decay electric field pulses | Q69132798 | ||
Electropore diameters, lifetimes, numbers, and locations in individual erythrocyte ghosts | Q69590157 | ||
Voltage-dependent introduction of a d[alpha]octothymidylate into electropermeabilized cells | Q69973767 | ||
Reversible and irreversible modification of erythrocyte membrane permeability by electric field | Q70057309 | ||
Killing of bacteria with electric pulses of high field strength | Q71053597 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | electroporation | Q1142521 |
P1104 | number of pages | 9 | |
P304 | page(s) | 1522-1530 | |
P577 | publication date | 1994-05-01 | |
P1433 | published in | Biophysical Journal | Q2032955 |
P1476 | title | Quantitative study of molecular transport due to electroporation: uptake of bovine serum albumin by erythrocyte ghosts | |
P478 | volume | 66 |
Q48048861 | Calcein Release from Cells In Vitro via Reversible and Irreversible Electroporation. |
Q34169017 | Calcium waves induced by large voltage pulses in fish keratocytes |
Q51258686 | Effects of Electroporation on Tamoxifen Delivery in Estrogen Receptor Positive (ER+) Human Breast Carcinoma Cells. |
Q40128465 | Electropermeabilization of mammalian cells to macromolecules: control by pulse duration |
Q42536171 | Energetic constraints on the creation of cell membrane pores by magnetic particles |
Q51748989 | Evidence for electro-induced membrane defects assessed by lateral mobility measurement of a GPi anchored protein. |
Q40665666 | Highly efficient, large volume flow electroporation |
Q60342834 | Intracellular Delivery by Membrane Disruption: Mechanisms, Strategies, and Concepts |
Q42423765 | Kinetics of transmembrane transport of small molecules into electropermeabilized cells |
Q38458324 | Mechanisms of transfer of bioactive molecules through the cell membrane by electroporation |
Q37436139 | Mechanistic analysis of electroporation-induced cellular uptake of macromolecules |
Q34129399 | Millisecond measurement of transport during and after an electroporation pulse |
Q45880352 | Prediction and optimization of gene transfection and drug delivery by electroporation |
Q28346285 | Quantitative study of electroporation-mediated molecular uptake and cell viability |
Q34107635 | Selective cytotoxicity of intense nanosecond-duration electric pulses in mammalian cells |
Q43715369 | Sonoluminescence as an indicator of cell membrane disruption by acoustic cavitation |
Q35878575 | The cell as a biomaterial |
Q35111500 | The role of aqueous interfaces in the cell |
Q52109873 | Theoretical modeling of the effects of shock duration, frequency, and strength on the degree of electroporation. |
Q54049628 | Theory of electrical creation of aqueous pathways across skin transport barriers. |
Q55951425 | Theory of electroporation: A review |
Q77390737 | Transdermal permeation of neutral molecules by skin electroporation |
Q30581943 | Transdermal water mobility in the presence of electrical fields using MR microscopy |
Q74093488 | Understanding conditions for which biological effects of nonionizing electromagnetic fields can be expected |
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