Antonia Herrero scite author profile

Within the wide biodiversity that is found in the bacterial world, Cyanobacteria represents a unique phylogenetic group that is responsible for a key metabolic process in the biosphere - oxygenic photosynthesis - and that includes representatives exhibiting complex morphologies. Many cyanobacteria are multicellular, growing as filaments of cells in which some cells can differentiate to carry out specialized functions. These differentiated cells include resistance and dispersal forms as well as a metabolically specialized form that is devoted to N(2) fixation, known as the heterocyst. In this Review we address cyanobacterial intercellular communication, the supracellular structure of the cyanobacterial filament and the basic principles that govern the process of heterocyst differentiation.

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Molecular mechanism for the operation of nitrogen control in cyanobacteria.

Luque

1994

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In cyanobacteria, ammonium exerts a negative regulation of the expression of proteins involved in the assimilation of nitrogen sources alternative to ammonium. In Synechococcus, mRNA levels of genes encoding proteins for nitrate and ammonium assimilation were observed to be negatively regulated by ammonium, and ammonium‐regulated transcription start points were identified for those genes. The NtcA protein is a positive regulator of genes subjected to nitrogen control by ammonium. Mutants lacking NtcA exhibited only basal mRNA levels of the regulated genes, even in the absence of ammonium, indicating that NtcA exerts its regulatory action by positively influencing mRNA levels of the nitrogen‐regulated genes. NtcA was observed to bind directly to the promoters of nitrogen‐regulated genes, and the palindromic DNA sequence GTAN8TAC was identified as a sequence signature for NtcA‐target sites. The structure of the nitrogen‐, NtcA‐regulated promoters of Synechococcus was determined to be constituted by a ‐10, Pribnow‐like box in the form TAN3T, and an NtcA‐binding site that substituted for the canonical ‐35 box.

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Antonia Herrero

Nitrogen Control in Cyanobacteria

Compartmentalized function through cell differentiation in filamentous cyanobacteria

Molecular mechanism for the operation of nitrogen control in cyanobacteria.

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