Michael Jaehme scite author profile

PnuC transporters catalyze cellular uptake of the NAD+ precursor nicotinamide riboside (NR) and belong to a large superfamily that includes the SWEET sugar transporters. We present a crystal structure of Neisseria mucosa PnuC, which adopts a highly symmetrical fold with 3+1+3 membrane topology not previously observed in any protein. The high symmetry of PnuC with a single NR bound in the center suggests a simple alternating-access translocation mechanism.

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The role of N‐glycosylation in transport function and surface targeting of the human solute carrier PAT1

Dorn¹,

Jaehme²,

Weiwad³

et al. 2009

FEBS Letters

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a b s t r a c tIn the present study we show in the Xenopus laevis expression system that the proton-coupled amino acid transporter 1 (PAT1, SLC36A1) is glycosylated at asparagine residues N174, N183 and N470. To determine the functional role of N-glycosylation, glycosylation-deficient mutants were analyzed by two-electrode voltage-clamp measurements after expression in X. laevis oocytes. Single replacements of asparagine residues had no effect on transport activity. However, multiple substitutions resulted in a decreased transport rate, leaving K t unchanged. Immunofluorescence localisation revealed a diminished plasma membrane expression of glycosylation-defective mutants. This indicates that N-glycans are not required for transport function, but are important for membrane targeting.

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The twisted relation between Pnu and SWEET transporters

Jaehme¹,

Guskov²,

Slotboom³

2015

Trends in Biochemical Sciences

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Structure, function, evolution, and application of bacterial Pnu-type vitamin transporters

Jaehme

Slotboom

2015

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Many bacteria can take up vitamins from the environment via specific transport machineries. Uptake is essential for organisms that lack complete vitamin biosynthesis pathways, but even in the presence of biosynthesis routes uptake is likely preferred, because it is energetically less costly. Pnu transporters represent a class of membrane transporters for a diverse set of B-type vitamins. They were identified 30 years ago and catalyze transport by the mechanism of facilitated diffusion, without direct coupling to ATP hydrolysis or transport of coupling ions. Instead, directionality is achieved by metabolic trapping, in which the vitamin substrate is converted into a derivative that cannot be transported, for instance by phosphorylation. The recent crystal structure of the nicotinamide riboside transporter PnuC has provided the first insights in substrate recognition and selectivity. Here, we will summarize the current knowledge about the function, structure, and evolution of Pnu transporters. Additionally, we will highlight their role for potential biotechnological and pharmaceutical applications.

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Michael Jaehme

Diversity of membrane transport proteins for vitamins in bacteria and archaea

Crystal structure of the vitamin B3 transporter PnuC, a full-length SWEET homolog

The role of N‐glycosylation in transport function and surface targeting of the human solute carrier PAT1

The twisted relation between Pnu and SWEET transporters

Structure, function, evolution, and application of bacterial Pnu-type vitamin transporters

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