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  • Structural and biochemical characterization of the N-terminal domain of flocculin Lg-Flo1p from Saccharomyces pastorianus reveals a unique specificity for phosphorylated mannose.

Structural and biochemical characterization of the N-terminal domain of flocculin Lg-Flo1p from Saccharomyces pastorianus reveals a unique specificity for phosphorylated mannose.

The FEBS journal (2013-01-04)
Lyann Sim, Magnus Groes, Kjeld Olesen, Anette Henriksen
ABSTRACT

The mechanism of yeast flocculation is generally considered to be mediated through the interaction of cell surface flocculins and mannan carbohydrates. In the present study, the crystal structure of the soluble 25-kDa lectin domain of flocculin 1 from brewer's yeast (Lg-Flo1p) was resolved to 2.5 Å, and its binding specificity towards oligosaccharides was investigated by fluorescence spectroscopy. Lg-Flo1p displays broad specificity towards sugars and has a 14-fold higher affinity for mannose 1-phosphate and glucose 1-phosphate compared to their unphosphorylated counterparts. Based on the results of a structural analysis, we propose that this higher affinity is the result of a charge interaction with a lysine residue in a carbohydrate-binding loop region, NAKAL, unique to NewFlo type flocculins. This raises the possibility of a unique mechanism of flocculation in NewFlo type yeast, which recognizes phosphorylated cell surface mannans. Structural data have been deposited in the Protein Data Bank under accession number 4GQ7.

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Sigma-Aldrich
α-D-Glucose 1-phosphate disodium salt hydrate, ≥97% (Enzymatic Purity, anhydrous)
Sigma-Aldrich
α-D-Glucose 1-phosphate dipotassium salt hydrate, ≥99% (HPLC), BioXtra
Sigma-Aldrich
α-D-Glucose 1-phosphate dipotassium salt hydrate, ≥97% (HPLC)