Mareike Rudolf scite author profile

SummaryAnabaena sp. PCC 7120 is a prototype filamentous nitrogen-fixing cyanobacterium, in which nitrogen fixation and photosynthesis are spatially separated. Recent molecular and cellular studies have established the importance of molecular exchange between cells in the filament, but the routes involved are still under investigation. Two current models propose either a continuous periplasm or direct connections between adjacent cells whose integrity requires the protein SepJ. We used electron tomography to analyze the ultrastructure of the septum between vegetative cells in the Anabaena filament and were able to visualize intercellular connections that we term 'SEPTOSOMES'. We observed that, whereas the existence of the septosome does not depend on the presence of SepJ, the spacing between the two plasma membranes of the septum was significantly decreased in a DsepJ mutant. In addition, we observed that the peptidoglycan layer of each cell enters the septum but the outer membrane does not. Thus, each cell in the filament is individually surrounded by a plasma membrane and a peptidoglycan layer, and physical cell-cell contacts are mediated by the septosome.

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Iron in Cyanobacteria

Kranzler

Rudolf

Keren

et al. 2013

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Multiple modes of iron uptake by the filamentous, siderophore‐producing cyanobacterium, Anabaena sp. PCC 7120

Rudolf

Kranzler

Lis

et al. 2015

Molecular Microbiology

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SummaryIron is a member of a small group of nutrients that limits aquatic primary production. Mechanisms for utilizing iron have to be efficient and adapted according to the ecological niche. In respect to iron acquisition cyanobacteria, prokaryotic oxygen evolving photosynthetic organisms can be divided into siderophore-and non-siderophore-producing strains. The results presented in this paper suggest that the situation is far more complex. To understand the bioavailability of different iron substrates and the advantages of various uptake strategies, we examined iron uptake mechanisms in the siderophore-producing cyanobacterium Anabaena sp. PCC 7120. Comparison of the uptake of iron complexed with exogenous (desferrioxamine B, DFB) or to self-secreted (schizokinen) siderophores by Anabaena sp. revealed that uptake of the endogenous produced siderophore complexed to iron is more efficient. In addition, Anabaena sp. is able to take up dissolved, ferric iron hydroxide species (Fe′) via a reductive mechanism. Thus, Anabaena sp. exhibits both, siderophore-and non-siderophore-mediated iron uptake. While assimilation of Fe′ and FeDFB are not induced by iron starvation, FeSchizokinen uptake rates increase with increasing iron starvation. Consequently, we suggest that Fe′ reduction and uptake is advantageous for low-density cultures, while at higher densities siderophore uptake is preferred.

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The Peptidoglycan-Binding Protein SjcF1 Influences Septal Junction Function and Channel Formation in the Filamentous Cyanobacterium Anabaena

Rudolf

Tetik

Ramos-León

et al. 2015

mBio

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Filamentous, heterocyst-forming cyanobacteria exchange nutrients and regulators between cells for diazotrophic growth. Two alternative modes of exchange have been discussed involving transport either through the periplasm or through septal junctions linking adjacent cells. Septal junctions and channels in the septal peptidoglycan are likely filled with septal junction complexes. While possible proteinaceous factors involved in septal junction formation, SepJ (FraG), FraC, and FraD, have been identified, little is known about peptidoglycan channel formation and septal junction complex anchoring to the peptidoglycan. We describe a factor, SjcF1, involved in regulation of septal junction channel formation in the heterocyst-forming cyanobacterium Anabaena sp. strain PCC 7120. SjcF1 interacts with the peptidoglycan layer through two peptidoglycan-binding domains and is localized throughout the cell periphery but at higher levels in the intercellular septa. A strain with an insertion in sjcF1 was not affected in peptidoglycan synthesis but showed an altered morphology of the septal peptidoglycan channels, which were significantly wider in the mutant than in the wild type. The mutant was impaired in intercellular exchange of a fluorescent probe to a similar extent as a sepJ deletion mutant. SjcF1 additionally bears an SH3 domain for protein-protein interactions. SH3 binding domains were identified in SepJ and FraC, and evidence for interaction of SjcF1 with both SepJ and FraC was obtained. SjcF1 represents a novel protein involved in structuring the peptidoglycan layer, which links peptidoglycan channel formation to septal junction complex function in multicellular cyanobacteria. Nonetheless, based on its subcellular distribution, this might not be the only function of SjcF1.

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Mareike Rudolf

Outer membrane continuity and septosome formation between vegetative cells in the filaments of Anabaena sp. PCC 7120

Iron in Cyanobacteria

Multiple modes of iron uptake by the filamentous, siderophore‐producing cyanobacterium, Anabaena sp. PCC 7120

The Peptidoglycan-Binding Protein SjcF1 Influences Septal Junction Function and Channel Formation in the Filamentous Cyanobacterium Anabaena

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