The Nostoc‐Gunnera magellanica symbiosis: Phycobiliproteins, carboxysomes and Rubisco in the cyanobiont

In the nitrogen fixing symbiosis between Nostoc and the angiosperm Gunnera , the cyanobiont is found in stem glands and is thought to have a heterotrophic mode of nutrition. To investigate whether the photosynthetic machinery in the cyanobiont is down‐regulated in the symbiosis, the presence of the phycobiliproteins, phycoerythrin and phycocyanin, and ribulose‐1,5‐bisphosphate carboxylase oxygenase (Rubisco, EC 4.1.1.39) in cyanobionts of Gunnera magellanica Lam. and in a free‐living (cultured) isolate of the cyanobacterium was studied by immunoelectron microscopy. Carboxysomes were numerous in all vegetative cells (ca 3.5 per cell section), and on an area basis they showed a high Rubisco label compared to the cytoplasm; but recalculation on a volume basis demonstrated that the carboxysomal fraction of Rubisco decreased in the cyanobiont along the plant stem. Along the whole Gunnera stem both types of phycobiliproteins were present in the symbiotic Nostoc and in amounts equivalent to or above those detected in the free‐living isolate. As the symbiotic Nostoc is located intracellularly, out of reach of light in the plant stem, the findings indicate a lack of regulation of the photosynthetic protein synthesis in the symbiotic state.