[alpha]-d-Mannopyranosyl-(1[Right arrow]2)-[alpha]-d-glucopyranosyl-(1[Right arrow]2)-glycerate in the thermophilic bacterium Petrotoga miotherma - structure, cellular content and function

The intracellular accumulation of low molecular mass organic compounds in response to stressful conditions was investigated in the thermophilic bacterium Petrotoga miotherma, a member of the order Thermotogales. This led to the discovery of a new solute, whose structure was established as alpha-d-ma...

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Veröffentlicht in:	The FEBS journal 2007-06, Vol.274 (12), p.3120
Hauptverfasser:	Jorge, Carla D, Lamosa, Pedro, Santos, Helena
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Sprache:	eng
Schlagworte:	Adaptation Bacteria Biochemistry Cellular biology Freezing Heating Molecular structure Osmosis Proteins
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description	The intracellular accumulation of low molecular mass organic compounds in response to stressful conditions was investigated in the thermophilic bacterium Petrotoga miotherma, a member of the order Thermotogales. This led to the discovery of a new solute, whose structure was established as alpha-d-mannopyranosyl-(1[Right arrow]2)-alpha-d-glucopyranosyl-(1[Right arrow]2)-glycerate (MGG) by MMR spectroscopy and MS. Under optimum growth conditions (3% NaCl; 55 degrees C), MGG was the major solute [up to 0.6 micromol dot(mg protein)-1]; alpha-glutamate and proline were also present but in minor amounts [below 0.08 micromol dot (mg protein)-1]. The level of MGG increased notably with the salinity of the growth medium up to the optimum NaCl concentration. At higher NaCl concentrations, however, the level of MGG decreased, whereas the levels of proline and alpha-glutamate increased about five-fold and 10-fold, respectively. MGG plays a role during low-level osmotic adaptation of Petrotoga miotherma, whereas alpha-glutamate and, to a lesser extent, proline are used for osmoprotection under salt stress. MGG is not part of the cell strategy for coping with heat or oxidative stress. Nevertheless, MGG was an efficient protector of pig heart malate dehydrogenase against heat inactivation and freeze-drying, although mannosylglycerate was better. This is the first report on the occurrence of MGG in living systems. [PUBLICATION ABSTRACT]
doi_str_mv	10.1111/j.1742-4658.2007.05844.x
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subjects	Adaptation Bacteria Biochemistry Cellular biology Freezing Heating Molecular structure Osmosis Proteins
title	[alpha]-d-Mannopyranosyl-(1[Right arrow]2)-[alpha]-d-glucopyranosyl-(1[Right arrow]2)-glycerate in the thermophilic bacterium Petrotoga miotherma - structure, cellular content and function
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