RESUMO
Polyphosphates, chains of polymerized phosphate subunits, are used as food additives for various applications such as conservation, water retention, and pH buffering. Currently, the value chain of phosphates is linear, based on mining fossil phosphate rock, which is anticipated to be depleted in a few hundred years. With no replacement available, a transition to a circular phosphate economy, to which biological systems can contribute, is required. Baker's yeast can hyperaccumulate phosphate from various phosphate-rich waste streams and form polyphosphates, which can be used directly or as polyphosphate-rich yeast extract with enhanced properties in the food industry. By maturing the technology to an industrial level and allowing upcycled waste streams for food applications, substantial contributions to a sustainable phosphate economy can be achieved.
RESUMO
Lysosomal accumulation of the glycosphingolipid globotriaosylceramide Gb3 is linked to the deficient activity of the α-galactosidase A in the Anderson-Fabry disease and an elevated level of deacylated Gb3 is a hallmark of this condition. Localization of Gb3 in the plasma membrane is critical for studying how the membrane organization and its dynamics are affected in this genetic disorder. Gb3 analogs containing a terminal 6-azido-functionalized galactose in its head group globotriose (αGal1, 4ßGal1, and 4Glc) are attractive chemical reporters for bioimaging, as the azido-group may act as a chemical tag for bio-orthogonal click chemistry. We report here the production of azido-Gb3 analogs employing mutants of galactokinase, UTP-glucose-1-phosphate uridylyltransferase, and α-1,4-galactosyltransferase LgtC, which participate in the synthesis of the sugar motif globotriose. Variants of enzymes galactokinase/UTP-glucose-1-phosphate uridylyltransferase generate UDP-6-azido-6-deoxy-d-galactose, which is the galactosyl-donor used by LgtC for transferring the terminal galactose moiety to lactosyl-acceptors. Residues at the galactose-binding site of the 3 enzymes were modified to facilitate the accommodation of azido-functionalized substrates and variants outperforming the wild-type enzymes were characterized. Synthesis of 6-azido-6-deoxy-d-galactose-1-phosphate, UDP-6-azido-6-deoxy-d-galactose, and azido-Gb3 analogs by variants GalK-E37S, GalU-D133V, and LgtC-Q187S, respectively, is 3-6-fold that of their wild-type counterparts. Coupled reactions with these variants permit the production of the pricy, unnatural galactosyl-donor UDP-6-azido-6-deoxy-d-galactose with ~90% conversion yields, and products azido-globotriose and lyso-AzGb3 with substrate conversion of up to 70%. AzGb3 analogs could serve as precursors for the synthesis of other tagged glycosphingolipids of the globo-series.
