Fatty acid synthesis by isolated leucoplasts from developing Brassica seeds: Role of nucleoside triphosphates and DHAP-shuttle as the source of energy.

ABSTRACT

Fatty acid synthesis in leucoplasts isolated from developing seeds of Brassica campestris was absolutely dependent on external source of ATP. None of the other nucleoside triphosphates could replace ATP in the reaction mixture. Use of ADP alone also resulted in reduced rates of fatty acid synthesis. However, in combination with inorganic phosphate or inorganic pyrophosphate, it improved the rate of fatty acid synthesis, giving up to 50% of the ATP-control activity. Inorganic phosphate or inorganic pyrophosphate alone again did not serve as an energy source for fatty acid synthesis. AMP, alongwith inorganic pyrophosphate could promote fatty acid synthesis to up to 42% of the activity obtained with ATP. The three components dihydroxy acetone phosphate, oxaloacetic acid, inorganic phosphate of dihydroxy acetone phosphate-shuttle together could restore 50% of the activity obtained with ATP. Omission of any one of the components of this shuttle drastically reduced the rate of fatty acid synthesis to 15–24% of the ATP-control activity. Inclusion of ATP in reaction mixtures containing shuttle components enhanced the rate of synthesis over control. The optimum ratio of shuttle components dihydroxy acetone phosphate, oxaloacetic acid, inorganic phosphate determined was 112. Maximum rates of fatty acid synthesis were obtained when dihydroxy acetate phosphate was used as the shuttle triose. Glyceraldehyde-3-P, 3-phosphoglycerate, 2-phosphoglycerate and phosphoenolpyruvate as shuttle trioses were around 35–60% as effective as dihydroxy acetone phosphate in promoting fatty acid synthesis. The results presented here indicate that although the isolated leucoplasts readily utilize exogenously supplied ATP for fatty acid synthesis, intraplastidic ATP could also arise from dihydroxy acetone phosphate shuttle components or other appropriate metabolites.