Journal
JOURNAL OF PHYCOLOGY
Volume 36, Issue 5, Pages 932-941Publisher
WILEY
DOI: 10.1046/j.1529-8817.2000.99132.x
Keywords
cyanobacteria; cyanophycin; heterocyst; immunocytochemistry; N-2 fixation; nitrogenase; photosynthesis; phycobilisomes; synthetase
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The process of N-2 fixation in the filamentous cyanobacterium Anabaena sp. PCC 7120 is known to occur in terminally differentiated cells called heterocysts. This study is concerned with a morphological and immunocytochemical analysis of the developing heterocysts. The heterocysts continue a developmental process after synthesis of the specialized cell wall and the formation of the proheterocyst. The initial stages were described by Wilcox et al. (1973) and designated stages 1 through 7, with stages 5-7 associated with the maturing heterocyst. We now designate a stage 8 as the postmaturation stage, based on physiological and ultrastructural evidence. Immunocytochemistry to detect the nitrogenase protein NifH and the nonribosomally synthesized polypeptide cyanophycin demonstrated a complementary accumulation of these polypeptides. Accumulation of the nitrogenase protein was greatest at stages 5 and 6 and then declined precipitously. Cyanophycin was more prevalent after late stage 6 and was primarily associated with the polar nodule (polar plug) and the neck connecting the heterocyst with the adjoining vegetative cell. We suggest that the cyanophycin-containing; polar plug is a key intermediate in the storage of fixed nitrogen in the heterocyst, a result consistent with the suggestion first made by Carr (1988) that cyanophycin exists as a dynamic reservoir of fixed nitrogen within the heterocysts.
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