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Dissecting the machinery that introduces disulfide bonds in Pseudomonas aeruginosa.

Arts, I. S., G. Ball, P. Leverrier, S. Garvis, V. Nicolaes, D. Vertommen, B. Ize, V. Tamu Dufe, J. Messens, R. Voulhoux, et al., "Dissecting the machinery that introduces disulfide bonds in Pseudomonas aeruginosa.", MBio, vol. 4, issue 6, pp. e00912-13, 2013 Dec 10.

Structural basis of carbohydrate recognition by lectin II from Ulex europaeus, a protein with a promiscuous carbohydrate-binding site.

Loris, R., H. De Greve, M. H. Dao-Thi, J. Messens, A. Imberty, and L. Wyns, "Structural basis of carbohydrate recognition by lectin II from Ulex europaeus, a protein with a promiscuous carbohydrate-binding site.", J Mol Biol, vol. 301, issue 4, pp. 987-1002, 2000 Aug 25.

The structure of a triple mutant of pI258 arsenate reductase from Staphylococcus aureus and its 5-thio-2-nitrobenzoic acid adduct.

Messens, J., I. Van Molle, P. Vanhaesebrouck, K. Van Belle, K. Wahni, J. C. Martins, L. Wyns, and R. Loris, "The structure of a triple mutant of pI258 arsenate reductase from Staphylococcus aureus and its 5-thio-2-nitrobenzoic acid adduct.", Acta Crystallogr D Biol Crystallogr, vol. 60, issue Pt 6, pp. 1180-4, 2004 Jun.

Combining site-specific mutagenesis and seeding as a strategy to crystallize 'difficult' proteins: the case of Staphylococcus aureus thioredoxin.

Roos, G., E. Brosens, K. Wahni, A. Desmyter, S. Spinelli, L. Wyns, J. Messens, and R. Loris, "Combining site-specific mutagenesis and seeding as a strategy to crystallize 'difficult' proteins: the case of Staphylococcus aureus thioredoxin.", Acta Crystallogr Sect F Struct Biol Cryst Commun, vol. 62, issue Pt 12, pp. 1255-8, 2006 Dec 1.

The conserved active site proline determines the reducing power of Staphylococcus aureus thioredoxin.

Roos, G., A. Garcia-Pino, K. Van Belle, E. Brosens, K. Wahni, G. Vandenbussche, L. Wyns, R. Loris, and J. Messens, "The conserved active site proline determines the reducing power of Staphylococcus aureus thioredoxin.", J Mol Biol, vol. 368, issue 3, pp. 800-11, 2007 May 4.

Nonspecific base recognition mediated by water bridges and hydrophobic stacking in ribonuclease I from Escherichia coli.

Rodriguez, S. Martinez, S. Panjikar, K. Van Belle, L. Wyns, J. Messens, and R. Loris, "Nonspecific base recognition mediated by water bridges and hydrophobic stacking in ribonuclease I from Escherichia coli.", Protein Sci, vol. 17, issue 4, pp. 681-90, 2008 Apr.

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