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Structural and functional insights into tRNA binding and adenosine N1-methylation by an archaeal Trm10 homologue.

Van Laer, B., M. Roovers, L. Wauters, J. M. Kasprzak, M. Dyzma, E. Deyaert, R. Kumar Singh, A. Feller, J. M. Bujnicki, L. Droogmans, et al., "Structural and functional insights into tRNA binding and adenosine N1-methylation by an archaeal Trm10 homologue.", Nucleic Acids Res, vol. 44, issue 2, pp. 940-53, 2016 Jan 29.

A Single-Amino-Acid Substitution in Obg Activates a New Programmed Cell Death Pathway in Escherichia coli.

Dewachter, L., N. Verstraeten, D. Monteyne, C. Ines Kint, W. Versées, D. Pérez-Morga, J. Michiels, and M. Fauvart, "A Single-Amino-Acid Substitution in Obg Activates a New Programmed Cell Death Pathway in Escherichia coli.", mBio, vol. 6, issue 6, pp. e01935-15, 2015 Dec 22.

SAXS analysis of the tRNA-modifying enzyme complex MnmE/MnmG reveals a novel interaction mode and GTP-induced oligomerization.

Fislage, M., E. Brosens, E. Deyaert, A. Spilotros, E. Pardon, R. Loris, J. Steyaert, A. Garcia-Pino, and W. Versées, "SAXS analysis of the tRNA-modifying enzyme complex MnmE/MnmG reveals a novel interaction mode and GTP-induced oligomerization.", Nucleic Acids Res, vol. 42, issue 9, pp. 5978-92, 2014 May.

A putative de-N-acetylase of the PIG-L superfamily affects fluoroquinolone tolerance in Pseudomonas aeruginosa.

Liebens, V., V. Defraine, A. Van der Leyden, V. N. De Groote, C. Fierro, S. Beullens, N. Verstraeten, C. Kint, A. Jans, E. Frangipani, et al., "A putative de-N-acetylase of the PIG-L superfamily affects fluoroquinolone tolerance in Pseudomonas aeruginosa.", Pathog Dis, vol. 71, issue 1, pp. 39-54, 2014 Jun.

Characterization of two homologous 2'-O-methyltransferases showing different specificities for their tRNA substrates.

Somme, J., B. Van Laer, M. Roovers, J. Steyaert, W. Versées, and L. Droogmans, "Characterization of two homologous 2'-O-methyltransferases showing different specificities for their tRNA substrates.", RNA, vol. 20, issue 8, pp. 1257-71, 2014 Aug.

The crystal structure of Trypanosoma cruzi glucokinase reveals features determining oligomerization and anomer specificity of hexose-phosphorylating enzymes.

Cordeiro, A. T., A. J. Cáceres, D. Vertommen, J. Luis Concepción, P. A. M. Michels, and W. Versées, "The crystal structure of Trypanosoma cruzi glucokinase reveals features determining oligomerization and anomer specificity of hexose-phosphorylating enzymes.", J Mol Biol, vol. 372, issue 5, pp. 1215-26, 2007 Oct 05.

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