Bioelectricity

Current Volume: 7 | Current Issue: 3 | ISSN: 25763105 | ESSN: 25763113 |
Bioelectricity
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Description

All living things, animals and plants, even single-cell organisms, depend on their intrinsic electrical properties to function and to survive. The field of bioelectricity was born from work on so-called ‘excitable cells’ (nerves and muscles), and it is now accepted that every biological cell has electrical properties which are essential for its normal functioning and homeostatic balance. Consequently, abnormalities in cellular bioelectricity are disruptive and can lead to serious disease. Furthermore, living things respond to external electric fields, and a huge range of applications can exploit the body’s electricity in medicine, biomedicine, and in industry, including those related to food and environment. Large magnitude external electric fields can be applied to manipulate proteins and/or membrane structures in living cells (e.g., membrane electroporation/electropermeabilization, electrotransfer, or pulse electric fields). These fields may profoundly modify the cell physiology and can be utilized for multiple applications affecting microbial, animal, and plant cells. This journal is an exciting and dynamic focal point for the growing bioelectricity community and serves as the go-to resource driving the field forward. The journal publishes the highest quality research papers across the multiplicity of subject areas encompassed by bioelectricity through original research articles, reviews, perspectives, technical notes, and several extra features. 

Description

All living things, animals and plants, even single-cell organisms, depend on their intrinsic electrical properties to function and to survive. The field of bioelectricity was born from work on so-called ‘excitable cells’ (nerves and muscles), and it is now accepted that every biological cell has electrical properties which are essential for its normal functioning and homeostatic balance. Consequently, abnormalities in cellular bioelectricity are disruptive and can lead to serious disease. Furthermore, living things respond to external electric fields, and a huge range of applications can exploit the body’s electricity in medicine, biomedicine, and in industry, including those related to food and environment. Large magnitude external electric fields can be applied to manipulate proteins and/or membrane structures in living cells (e.g., membrane electroporation/electropermeabilization, electrotransfer, or pulse electric fields). These fields may profoundly modify the cell physiology and can be utilized for multiple applications affecting microbial, animal, and plant cells. This journal is an exciting and dynamic focal point for the growing bioelectricity community and serves as the go-to resource driving the field forward. The journal publishes the highest quality research papers across the multiplicity of subject areas encompassed by bioelectricity through original research articles, reviews, perspectives, technical notes, and several extra features. 
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Bioelectricity


Current Volume: 7 | Current Issue: 3 | ISSN: 25763105 | ESSN: 25763113 | Frequency: Quarterly | Submission Guidelines | Get Email Alerts

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All living things, animals and plants, even single-cell organisms, depend on their intrinsic electrical properties to function and to survive. The field of bioelectricity was born from work on so-called ‘excitable cells’ (nerves and muscles), and it is now accepted that every biological cell has electrical properties which are essential for its normal functioning and homeostatic balance. Consequently, abnormalities in cellular bioelectricity are disruptive and can lead to serious disease. Furthermore, living things respond to external electric fields, and a huge range of applications can exploit the body’s electricity in medicine, biomedicine, and in industry, including those related to food and environment. Large magnitude external electric fields can be applied to manipulate proteins and/or membrane structures in living cells (e.g., membrane electroporation/electropermeabilization, electrotransfer, or pulse electric fields). These fields may profoundly modify the cell physiology and can be utilized for multiple applications affecting microbial, animal, and plant cells. This journal is an exciting and dynamic focal point for the growing bioelectricity community and serves as the go-to resource driving the field forward. The journal publishes the highest quality research papers across the multiplicity of subject areas encompassed by bioelectricity through original research articles, reviews, perspectives, technical notes, and several extra features.