Direct Evaluation of Effects of Fatty-Acid Unsaturation on the Thermal Properties of Photosynthetic Activities, as Studied by Mutation and Transformation of Synechocystis PCC6803

Glycerolipids of thylakoid membranes isolated from the cyanobacteriumSynechocystis PCC6803 contained high levels of dienoic and trienoicC₁₈ fatty acids, in addition to saturated C₁₆ and monoenoicC₁₈ fatty acids. A mutant (Fadl2) of this cyanobacterium wasdefective in the desaturation of C₁₈ fatty acids at the ¹² position,and its thylakoid membranes lacked trienoic acids and containeda very reduced level of dienoic acids. A derivative strain ofFadl2 (Fadl2/desA), which had been transformed with a gene fordesaturation at the ¹² position, fully recovered the abilityto desaturate the fatty acids in the glycerolipids of thylakoidmembranes. The thermal properties of the photosynthetic activitiesof the mutant and the transformant were compared with thoseof the wild-type strain. Despite great diversity in the extentof unsaturation of fatty acids between the wild-type, Fadl2,and Fad12/desA strains, no significant differences were foundeither in the temperature dependence of photosynthesis or inthe heat stability of photosynthetic, photosystem II and photosystemI activities. These results demonstrate that the trienoic fattyacids and, probably, the dienoic acids of the lipids in thethylakoid membrane do not affect the thermal properties of theabove-mentioned activities of photosynthesis. ³Permanent address: Institute of Plant Physiology, BiologicalResearch Center of Hungarian Academy of Sciences, H-6701 Szeged,P.O. Box 521, Hungary (Received August 9, 1990; Accepted December 7, 1990)