Mg2+-Dependent electrical control of flagellar activity in Euglena

Abstract

When a Euglena gracilis in a Ca²⁺-containing medium is impaled with a microelectrode, the flagellum is instantly ejected. In a Ca²⁺-free medium to which 1mM EGTA has been added, the flagellum remains attached to the organism, but it loses activity upon impalement. Externally added ATP at a concentration of 10 mM will sustain normal flagellar activity (at approximately 20 Hz) of an impaled Euglena. If negative direct current of several tenths of a microamp is injected through the impaling microelectrode, the flagellar activity is stopped or much reduced. When the current injection is turned off the flagellum returns to its initial activity. This cyclo can be repeated many times on the same animal, independent of whether Mg²⁺ is present in the external medium or not. If 1 μM of gramicidin is added to Ca²⁺-free medium containing 1mM EGTA and 10 mM ATP, the flagellar activity becomes dependent on external Mg²⁺. Without external Mg²⁺ no flagellar activity is present after one or two current injection cycles as described above. With 1 mM Mg²⁺ present in the external medium many cycles (up to 10) can be produced. This Mg²⁺-dependent flagellar activity shows a smooth dependence on the amount of current injected. Observations taken by high speed cinemicrography show that in the third injection cycle the average frequency of the flagellar motion is 16 ·3 Hz at 0 μA, is 8 Hz at 0 ·2 μA, and is ≈ 0 at 0 ·6 μA of negative current. The injection of positive current results in an increase in flagellar frequency dependent on the amount of current injected. The data indicate that the control of motility of Euglena flagella is dependent on an electrically activated Mg²⁺ pump.