Composition and synthesis of cellular lipids in Neurospora crassa during cellular differentiation.

The synthesis of cellular lipids of Neurospora crassa was measured during growth on low (2% sucrose)- and high (15% glucose)-carbohydrate supplementation. The amount of lipid per dry weight of cells does not change during the germination and early logarithmic growth periods, but the percentage of phospholipid in the lipid does increase, reaching a maximal value of 90% at 4 to 5 h after inoculation, at which time the phospholipid content of the cells is approximately 60 mumol/g (dry weight). The content of the anionic phospholipids, as a percentage of the lipid fraction, is relatively constant during the growth period, but the contents of the zwitterionic phospholipids phosphatidylcholine and phosphatidylethanolamine change in a reciprocal fashion. During the first 8 h of growth, phosphatidylcholine falls from 53% of the phospholipid to 43%, whereas phosphatidylethanolamine rises from 29 to 38%. The total of these two phospholipids is approximately 83% during the growth period studied. The synthesis of cellular phospholipids, measured either by [32P]H3PO4 or [14C]glucose incorporation, reached maximal levels between 3 and 5 h of growth. The effect of the high-carbohydrate supplement on cellular lipids was minimal. Inclusion of 15% glucose decreased the labeling of phospholipid by [32P]H3PO4, but did not affect lipid composition. This observation is in contrast to the effects of high glucose on mitochondrial phospholipid synthesis.