Abstract

Most halophilic and halotolerant eubacteria are able to accumulate compatible solutes from their environment during salt stress. They are usually able to synthesize sugars and amino acids. These compatible solutes, however, are of less importance in extremely halophilic eubacteria, where usually glycinebetaine or ectoine is required. Extremely halophilic phototrophic sulfur bacteria of the genus Ectothiorhodospira are able to synthesize the three compatible solutes glycinebetaine, trehalose and ectoine. While glycinebetaine is the major compatible solute under all conditions the percentage of trehalose and ectoine varies depending on the availability of nitrogen sources. Using acetate plus bicarbonate as simultaneous substrates the three compatible solutes were analysed by 13C-NMR spectroscopy. The label found indicated the following biosynthesis pathways: glycine, derived from glyoxylate out of the Kornberg cycle, undergoes a three-fold methylation with S-adenosylmethionine as methyl donor. The latter is derived from the tetrahydrofolate pathway. Several enzymes of this pathway have been found and are under investigation. The labelling of trehalose indicates that the Calvin cycle is blocked in the presence of acetate. The two glucose moieties of trehalose are linked by trehalose-6-phosphate synthase. The enzyme was characterized. Ectoine is synthesized from aspartate via aspartophosphate, aspartate semialdehyde and α, β-diaminobutyrate. Dilution stress leads to rapid excretion of betaine and ectoine, followed by immediate uptake to balance overshoot excretion. Trehalose is not excreted under dilution stress but is degraded by trehalase and subsequently metabolized.