Closterium acerosum Ehrenberg (Chlorophyta) produced a distinct network of thin cytoplasmic strands, or Hechtian strands, upon controlled plasmolysis in a sucrose solution. The strands persisted for 30 min or longer and could be visualized with both LM and EM. Near the plasma membrane of the polar zones of plasmolyzing protoplasts, the strands formed a “lattice”‐like arrangement with interstrand spacing of 120–130 nm. The strands terminated at the fibrous zone of the inner cell wall stratum. Although actin cables could be found attached to the plasma membrane upon rhodamine phalloidin labeling of membrane ghosts, neither microfilaments nor microtubules were found in Hechtian strands at any stage of development. The formation of strands was not disrupted by centrifugation at 8000 g or by repeated cycles of plasmolysis‐deplasmolysis. Application of microtubule‐ or microfilament‐affecting agents or various proteolytic/polysaccharide‐degrading enzymes did not disrupt the formation of strands. Cold treatment of cells resulted in the formation of Hechtian strands.
The growth of myeloma cells in Leibovitz medium supplemented with 20% serum was limited by the depletion of glutamine. A simple modification of the Leibovitz medium by increasing the concentrations of glutamine, lysine, isoleucine, leucine, sodium pyruvate, galactose, and vitamins resulted in over 100% increase in cell growth yield. The total myeloma protein produced by the cells was increased by approximately 90% in modified Leibovitz media. Analysis of spent culture media for 19 amino acids showed that the concentrations of 8 amino acids were reduced; those of 5 amino acids were increased and the other 6 did not change significantly.
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