Journal ArticleDOI
Mechanisms of desiccation tolerance in cyanobacteria
TLDR
Drying of cells leads to damage resulting from crowding of cytoplasmic components, condensation of the nucleoid, increases in the Tm of membrane phase transitions, and imposition of stress upon cell walls, which restricts many organisms to aqueous environments, some, including many cyanobacteria, can tolerate the air-dried state for prolonged periods.Abstract:
Drying of cells leads to damage resulting from crowding of cytoplasmic components, condensation of the nucleoid, increases in the Tm of membrane phase transitions, and imposition of stress upon cell walls. Prolonged desiccation leads to oxidation of proteins, DNA and membrane components through metal-dependent Fenton reactions, while Maillard reactions generate cross-linked products between the carbonyl groups of reducing sugars and the primary amines of nucleic acids and proteins. Although such damage restricts many organisms to aqueous environments, some, including many cyanobacteria, can tolerate the air-dried state for prolonged periods. Cyanobacteria in the Tintenstrich communities of exposed rock faces, Microcoleus and Lyngbya spp. in intertidal mats, chasmoendolithic Chroococcidiopsis spp. in the rocks of hot and cold deserts, and terrestrial epilithic crusts of Tolypothrix and Nostoc are examples that show a marked capacity to withstand the removal of their cellular water. For Nostoc commune, the ...read more
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Life on the rocks.
TL;DR: Subaerial biofilm metabolic activity centres on retention of water, protecting the cells from fluctuating environmental conditions and solar radiation as well as prolonging their vegetative life, which manifests itself as bio-weathering of rock surfaces.
Journal ArticleDOI
Complexity of cyanobacterial exopolysaccharides: composition, structures, inducing factors and putative genes involved in their biosynthesis and assembly
Sara Pereira,Sara Pereira,Andrea Zille,Ernesto Micheletti,Pedro Moradas-Ferreira,Pedro Moradas-Ferreira,Roberto De Philippis,Paula Tamagnini,Paula Tamagnini +8 more
TL;DR: This review organizes available information on cyanobacterial EPS, including their composition, function and factors affecting their synthesis, and from the in silico analysis of available cyanob bacterial genome sequences, proposes a putative mechanism for their biosynthesis.
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Cryptobiosis — a peculiar state of biological organization
TL;DR: This work focuses chiefly on animal anhydrobiosis, achieved by the reversible loss of almost all the organism's water, and the adaptive biochemical and biophysical mechanisms allowing this to take place involve the participation of large concentrations of polyhydroxy compounds, chiefly the disaccharides trehalose or sucrose.
Journal ArticleDOI
Crucial Role of Extracellular Polysaccharides in Desiccation and Freezing Tolerance in the Terrestrial Cyanobacterium Nostoc commune
TL;DR: The results strongly suggest that EPS of N. commune is crucial for the stress tolerance of photosynthesis during desiccation and during freezing and thawing.
Journal ArticleDOI
Bacterial-mediated drought tolerance: Current and future prospects
TL;DR: This review synthesizes research concerning bacterial-mediated drought tolerance in agricultural crop plants and highlights the research needed to understand mechanisms behind observed bacterial- mediated drought tolerance and the need to homogenize and develop screening protocols.