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An endogenous electric field (EF) exists in the vertebrate lens, but the influences of this on the functions of lens epithelial cells (LECs) are unclear. Because LECs from different regions experience different patterns of endogenous EFs and show striking differences in morphology and function, bovine LECs from different regions were cultured in an applied EF to mimic that occurring naturally. The...
The vertebrate lens drives current through itself in a pattern which concentrates current efflux at the lens equator. Lens epithelial cells (LECs) move into this region where they change shape and differentiate into lens fibre cells. The mechanisms underpinning these cell behaviors are unclear. We have attempted to mimic, in isolation, the effects which such electrical signals have on LEC behaviors,...
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