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Pathway for the Synthesis of Mannosylglycerate in the Hyperthermophilic Archaeon Pyrococcus horikoshii
The biosynthetic pathway for the synthesis of the compatible solute α-mannosylglycerate in the hyperthermophilic archaeon Pyrococcus horikoshii is proposed based on the activities of purified recombinant mannosyl-3-phosphoglycerate (MPG) synthase and mannosyl-3-phosphoglycerate phosphatase. The form...
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| Published in: | The Journal of biological chemistry 2001-11, Vol.276 (47), p.43580-43588 |
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| Main Authors: | , , , , |
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| container_end_page | 43588 |
| container_issue | 47 |
| container_start_page | 43580 |
| container_title | The Journal of biological chemistry |
| container_volume | 276 |
| creator | Empadinhas, Nuno Marugg, Joey D. Borges, Nuno Santos, Helena da Costa, Milton S. |
| description | The biosynthetic pathway for the synthesis of the compatible solute α-mannosylglycerate in the hyperthermophilic archaeon Pyrococcus horikoshii is proposed based on the activities of purified recombinant mannosyl-3-phosphoglycerate (MPG) synthase and mannosyl-3-phosphoglycerate phosphatase. The former activity was purified from cell extracts, and the N-terminal sequence was used to identify the encoding gene in the completely sequenced P. horikoshii genome. This gene, designated PH0927, and a gene immediately downstream (PH0926) were cloned and overexpressed in Escherichia coli. The recombinant product of gene PH0927catalyzed the synthesis of α-mannosyl-3-phosphoglycerate (MPG) from GDP-mannose and d-3-phosphoglycerate retaining the configuration about the anomeric carbon, whereas the recombinant gene product of PH0926 catalyzed the dephosphorylation of mannosyl-3-phosphoglycerate to yield the compatible solute α-mannosylglycerate. The MPG synthase and the MPG phosphatase were specific for these substrates. Two genes immediately downstream from mpgs and mpgp were identified as a putative bifunctional phosphomannose isomerase/mannose-1-phosphate-guanylyltransferase (PH0925) and as a putative phosphomannose mutase (PH0923). Genes PH0927, PH0926, PH0925, and PH0923 were contained in an operon-like structure, leading to the hypothesis that these genes were under the control of an unknown osmosensing mechanism that would lead to α-mannosylglycerate synthesis. Recombinant MPG synthase had a molecular mass of 45,208 Da, a temperature for optimal activity between 90 and 100 °C, and a pH optimum between 6.4 and 7.4; the recombinant MPG phosphatase had a molecular mass of 27,958 Da and optimum activity between 95 and 100 °C and between pH 5.2 and 6.4. This is the first report of the characterization of MPG synthase and MPG phosphatase and the elucidation of a pathway for the synthesis of mannosylglycerate in an archaeon. |
| doi_str_mv | 10.1074/jbc.M108054200 |
| format | article |
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The former activity was purified from cell extracts, and the N-terminal sequence was used to identify the encoding gene in the completely sequenced P. horikoshii genome. This gene, designated PH0927, and a gene immediately downstream (PH0926) were cloned and overexpressed in Escherichia coli. The recombinant product of gene PH0927catalyzed the synthesis of α-mannosyl-3-phosphoglycerate (MPG) from GDP-mannose and d-3-phosphoglycerate retaining the configuration about the anomeric carbon, whereas the recombinant gene product of PH0926 catalyzed the dephosphorylation of mannosyl-3-phosphoglycerate to yield the compatible solute α-mannosylglycerate. The MPG synthase and the MPG phosphatase were specific for these substrates. Two genes immediately downstream from mpgs and mpgp were identified as a putative bifunctional phosphomannose isomerase/mannose-1-phosphate-guanylyltransferase (PH0925) and as a putative phosphomannose mutase (PH0923). Genes PH0927, PH0926, PH0925, and PH0923 were contained in an operon-like structure, leading to the hypothesis that these genes were under the control of an unknown osmosensing mechanism that would lead to α-mannosylglycerate synthesis. Recombinant MPG synthase had a molecular mass of 45,208 Da, a temperature for optimal activity between 90 and 100 °C, and a pH optimum between 6.4 and 7.4; the recombinant MPG phosphatase had a molecular mass of 27,958 Da and optimum activity between 95 and 100 °C and between pH 5.2 and 6.4. 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The former activity was purified from cell extracts, and the N-terminal sequence was used to identify the encoding gene in the completely sequenced P. horikoshii genome. This gene, designated PH0927, and a gene immediately downstream (PH0926) were cloned and overexpressed in Escherichia coli. The recombinant product of gene PH0927catalyzed the synthesis of α-mannosyl-3-phosphoglycerate (MPG) from GDP-mannose and d-3-phosphoglycerate retaining the configuration about the anomeric carbon, whereas the recombinant gene product of PH0926 catalyzed the dephosphorylation of mannosyl-3-phosphoglycerate to yield the compatible solute α-mannosylglycerate. The MPG synthase and the MPG phosphatase were specific for these substrates. Two genes immediately downstream from mpgs and mpgp were identified as a putative bifunctional phosphomannose isomerase/mannose-1-phosphate-guanylyltransferase (PH0925) and as a putative phosphomannose mutase (PH0923). Genes PH0927, PH0926, PH0925, and PH0923 were contained in an operon-like structure, leading to the hypothesis that these genes were under the control of an unknown osmosensing mechanism that would lead to α-mannosylglycerate synthesis. Recombinant MPG synthase had a molecular mass of 45,208 Da, a temperature for optimal activity between 90 and 100 °C, and a pH optimum between 6.4 and 7.4; the recombinant MPG phosphatase had a molecular mass of 27,958 Da and optimum activity between 95 and 100 °C and between pH 5.2 and 6.4. 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| title | Pathway for the Synthesis of Mannosylglycerate in the Hyperthermophilic Archaeon Pyrococcus horikoshii |
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