Abstract
Alginate is a major cell wall polymer of brown algae. The precursor for the polymer is GDP-mannuronic acid, which is believed to be derived from a four-electron oxidation of GDP-mannose through the enzyme GDP-mannose dehydrogenase (GMD). So far no eukaryotic GMD has been biochemically characterized. We have identified a candidate gene in the Ectocarpus siliculosus genome and expressed it as a recombinant protein in Escherichia coli. The GMD from Ectocarpus differs strongly from related enzymes in bacteria and is as distant to the bacterial proteins as it is to the group of UDP-glucose dehydrogenases. It lacks the C-terminal ∼120 amino acid domain present in bacterial GMDs, which is believed to be involved in catalysis. The GMD from brown algae is highly active at alkaline pH and contains a catalytic Cys residue, sensitive to heavy metals. The product GDP-mannuronic acid was analyzed by HPLC and mass spectroscopy. The K(m) for GDP-mannose was 95 μM, and 86 μM for NAD(+). No substrate other than GDP-mannose was oxidized by the enzyme. In gel filtration experiments the enzyme behaved as a dimer. The Ectocarpus GMD is stimulated by salts even at low molar concentrations as a possible adaptation to marine life. It is rapidly inactivated at temperatures above 30 °C.
Highlights
Ectocarpus siliculosus is a marine photoautotrophic brown alga (Phaeophyceae) which, together with oomycetes and diatoms, belongs to the phylum Stramenopiles
The genome of E. siliculosus contains a gene with high homology to UDP-glucose dehydrogenases, suggesting to us that the alginate precursor GDP-ManA is likely generated by a specific GDP-mannose dehydrogenase (GMD) enzyme and not by UDP-glucose dehydrogenase with broad substrate specificity
E. siliculosus contains a single gene, which clusters with UDP-glucose dehydrogenase (UGD) sequences from plants and animals (Fig. 1A) but in addition has three further genes that are clearly distinct from the UGD and are candidate genes for a GMD
Summary
We are studying UDP-glucose dehydrogenases from plants, which are involved in providing UDP-sugars for pectic polymers, arabinans, and xyloglucans. All of these enzymes are highly substrate-specific and convert only UDP-glucose into UDP-glucuronic acid. The genome of E. siliculosus contains a gene with high homology to UDP-glucose dehydrogenases, suggesting to us that the alginate precursor GDP-ManA is likely generated by a specific GMD enzyme and not by UDP-glucose dehydrogenase with broad substrate specificity. We characterize a unique recombinant GMD enzyme from Ectocarpus at the molecular level and compare its structure and properties with bacterial enzymes
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