Add to ORKGCell motility in response to environmental cues forms the basis of many developmental processes in multicellular organisms. One such environmental cue is an electric field (EF), which induces a form of motility known as electrotaxis. Electrotaxis has evolved in a number of cell types to guide wound healing and has been associated with different cellular processes, suggesting that observed electrotactic behavior is likely a combination of multiple distinct effects arising from the presence of an EF. To determine the different mechanisms by which observed electrotactic behavior emerges, and thus to design EFs that can be applied to direct and control electrotaxis, researchers require accurate quantitative predictions of cellular responses to ...
Migrating cells must integrate multiple, competing external guidance cues. However, it is not well u...
SummarySensing of an electric field (EF) by cells—galvanotaxis—is important in wound healing [1], de...
Under both physiological (development, regeneration) and pathological conditions (cancer metastasis)...
Cell motility in response to environmental cues forms the basis of many developmental processes in m...
Many cell types migrate in response to naturally generated electric fields. Furthermore, it has been...
Cell motility is important in embryonic development, wound-healing, and the metastasis of cancer. Th...
Cells have the ability to detect electric fields and respond to them with directed migratory movemen...
Understanding the mechanism of cell migration and interaction with the microenvironment is not only ...
Cells have the ability to detect electric fields and respond to them with directed migratory movemen...
It has long been known that many types of cells migrate in response to naturally-generated electric ...
The ability of cells to sense and respond to endogenous electric fields is important in processes su...
Background Directed cell migration can be driven by a range of external stimuli, such as spatial gra...
Electrotaxis is the cell migration in the presence of an electric field (EF). This migration is para...
Cell motility plays an integral role in most biological processes. One principle of motility is the ...
Directed cell migration is essential in both physiological and pathological situations. Many guidanc...
Migrating cells must integrate multiple, competing external guidance cues. However, it is not well u...
SummarySensing of an electric field (EF) by cells—galvanotaxis—is important in wound healing [1], de...
Under both physiological (development, regeneration) and pathological conditions (cancer metastasis)...
Cell motility in response to environmental cues forms the basis of many developmental processes in m...
Many cell types migrate in response to naturally generated electric fields. Furthermore, it has been...
Cell motility is important in embryonic development, wound-healing, and the metastasis of cancer. Th...
Cells have the ability to detect electric fields and respond to them with directed migratory movemen...
Understanding the mechanism of cell migration and interaction with the microenvironment is not only ...
Cells have the ability to detect electric fields and respond to them with directed migratory movemen...
It has long been known that many types of cells migrate in response to naturally-generated electric ...
The ability of cells to sense and respond to endogenous electric fields is important in processes su...
Background Directed cell migration can be driven by a range of external stimuli, such as spatial gra...
Electrotaxis is the cell migration in the presence of an electric field (EF). This migration is para...
Cell motility plays an integral role in most biological processes. One principle of motility is the ...
Directed cell migration is essential in both physiological and pathological situations. Many guidanc...
Migrating cells must integrate multiple, competing external guidance cues. However, it is not well u...
SummarySensing of an electric field (EF) by cells—galvanotaxis—is important in wound healing [1], de...
Under both physiological (development, regeneration) and pathological conditions (cancer metastasis)...
