Kristopher Kohena
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View article: DNA Electrotransfer Regulates Molecular Functions in Skeletal Muscle
DNA Electrotransfer Regulates Molecular Functions in Skeletal Muscle Open
Each muscle stimulus resulted in specific regulated molecular functions. Identifying the unique intrinsic molecular changes driven by intramuscular DNA electrotransfer will aid in the design of preventative and therapeutic gene therapies.
View article: Transcriptomic Analysis of the Acute Skeletal Muscle Effects after Intramuscular DNA Electroporation Reveals Inflammatory Signaling
Transcriptomic Analysis of the Acute Skeletal Muscle Effects after Intramuscular DNA Electroporation Reveals Inflammatory Signaling Open
Skeletal muscle is a promising tissue for therapeutic gene delivery because it is highly vascularized, accessible, and capable of synthesizing protein for therapies or vaccines. The application of electric pulses (electroporation) enhances…
View article: In vitro and in vivo correlation of skin and cellular responses to nucleic acid delivery
In vitro and in vivo correlation of skin and cellular responses to nucleic acid delivery Open
View article: Growth environment influences B16.F10 mouse melanoma cell response to gene electrotransfer
Growth environment influences B16.F10 mouse melanoma cell response to gene electrotransfer Open