Add to ORKGBackground: Electrotaxis is the movement of adherent living cells in response to a direct current (dc) electric field (EF) of physiological strength. Highly metastatic human lung cancer cells, CL1–5, exhibit directional migration and orientation under dcEFs. To understand the transcriptional response of CL1–5 cells to a dcEF, microarray analysis was performed in this study. Methodology/Principal Findings: A large electric-field chip (LEFC) was designed, fabricated, and used in this study. CL1–5 cells were treated with the EF strength of 0mV/mm (the control group) and 300mV/mm (the EF-treated group) for two hours. Signaling pathways involving the genes that expressed differently between the two groups were revealed. It was shown that the EF-...
Electric fields are generated in vivo in a variety of physiologic and pathologic settings, including...
Objectives: The bio-field array is a device that generates a dielectrophoretic electromagnetic field...
Cells have the ability to detect electric fields and respond to them with directed migratory movemen...
Electrotaxis is the movement of adherent living cells in response to a direct current (dc) electric ...
Physiological electric field (EF) plays a pivotal role in tissue development and regeneration. In vi...
Physiological electric field (EF) plays a pivotal role in tissue development and regeneration. In vi...
Endogenous direct-current electric fields (EFs) play significant roles in biological and pathologica...
Background: Endogenous direct-current electric fields (dcEFs), as one of the essential biophysical s...
Migration of cancer cells leads to the invasion of distant organs by primary tumors. Further, endoge...
Cancer growth interferes with local ionic environments, membrane potentials, and transepithelial pot...
There is growing evidence that cell behaviors can be influenced by the direct current electric field...
AbstractBone marrow-derived cells are thought to participate and enhance the healing process contrib...
Understanding the mechanism of cell migration and interaction with the microenvironment is not only ...
Direct current (DC) electric fields (EF) as a guidance cue to influence the migration behaviours of ...
Directed cell migration is essential in both physiological and pathological situations. Many guidanc...
Electric fields are generated in vivo in a variety of physiologic and pathologic settings, including...
Objectives: The bio-field array is a device that generates a dielectrophoretic electromagnetic field...
Cells have the ability to detect electric fields and respond to them with directed migratory movemen...
Electrotaxis is the movement of adherent living cells in response to a direct current (dc) electric ...
Physiological electric field (EF) plays a pivotal role in tissue development and regeneration. In vi...
Physiological electric field (EF) plays a pivotal role in tissue development and regeneration. In vi...
Endogenous direct-current electric fields (EFs) play significant roles in biological and pathologica...
Background: Endogenous direct-current electric fields (dcEFs), as one of the essential biophysical s...
Migration of cancer cells leads to the invasion of distant organs by primary tumors. Further, endoge...
Cancer growth interferes with local ionic environments, membrane potentials, and transepithelial pot...
There is growing evidence that cell behaviors can be influenced by the direct current electric field...
AbstractBone marrow-derived cells are thought to participate and enhance the healing process contrib...
Understanding the mechanism of cell migration and interaction with the microenvironment is not only ...
Direct current (DC) electric fields (EF) as a guidance cue to influence the migration behaviours of ...
Directed cell migration is essential in both physiological and pathological situations. Many guidanc...
Electric fields are generated in vivo in a variety of physiologic and pathologic settings, including...
Objectives: The bio-field array is a device that generates a dielectrophoretic electromagnetic field...
Cells have the ability to detect electric fields and respond to them with directed migratory movemen...