VerseesGroup

Structure and nucleotide-induced conformational dynamics of the Roco protein.

Deyaert, E., M. Leemans, R. Kumar Singh, R. Gallardo, J. Steyaert, A. Kortholt, J. Lauer, and W. Versées, "Structure and nucleotide-induced conformational dynamics of the Roco protein.", Biochem J, vol. 476, issue 1, pp. 51-66, 2019 01 07.

• Read more about Structure and nucleotide-induced conformational dynamics of the Roco protein.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Roco Proteins: GTPases with a Baroque Structure and Mechanism.

Wauters, L., W. Versées, and A. Kortholt, "Roco Proteins: GTPases with a Baroque Structure and Mechanism.", Int J Mol Sci, vol. 20, issue 1, 2019 Jan 03.

• Read more about Roco Proteins: GTPases with a Baroque Structure and Mechanism.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

TBC1D24-TLDc-related epilepsy exercise-induced dystonia: rescue by antioxidants in a disease model.

Lüthy, K., D. Mei, B. Fischer, M. De Fusco, J. Swerts, J. Paesmans, E. Parrini, N. Lubarr, I. A. Meijer, K. M. Mackenzie, et al., "TBC1D24-TLDc-related epilepsy exercise-induced dystonia: rescue by antioxidants in a disease model.", Brain, vol. 142, issue 8, pp. 2319-2335, 2019 Aug 01.

• Read more about TBC1D24-TLDc-related epilepsy exercise-induced dystonia: rescue by antioxidants in a disease model.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Biochemical determinants of ObgE-mediated persistence.

Verstraeten, N., S. Gkekas, C. Ines Kint, B. Deckers, B. Van den Bergh, P. Herpels, E. Louwagie, W. Knapen, D. Wilmaerts, L. Dewachter, et al., "Biochemical determinants of ObgE-mediated persistence.", Mol Microbiol, vol. 112, issue 5, pp. 1593-1608, 2019 11.

• Read more about Biochemical determinants of ObgE-mediated persistence.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

GTP Binding is Necessary for the Activation of a Toxic Mutant Isoform of the Essential GTPase ObgE.

Dewachter, L., B. Deckers, E. Martin, P. Herpels, S. Gkekas, W. Versées, N. Verstraeten, M. Fauvart, and J. Michiels, "GTP Binding is Necessary for the Activation of a Toxic Mutant Isoform of the Essential GTPase ObgE.", Int J Mol Sci, vol. 21, issue 1, 2019 Dec 18.

• Read more about GTP Binding is Necessary for the Activation of a Toxic Mutant Isoform of the Essential GTPase ObgE.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Structural and kinetic characterization of Trypanosoma congolense pyruvate kinase.

Torres, J. Esteban Pi, M. Yuan, J. Goossens, W. Versées, G. Caljon, P. A. Michels, M. D. Walkinshaw, S. Magez, and Y. G. - J. Sterckx, "Structural and kinetic characterization of Trypanosoma congolense pyruvate kinase.", Mol Biochem Parasitol, vol. 236, pp. 111263, 2020 Mar.

• Read more about Structural and kinetic characterization of Trypanosoma congolense pyruvate kinase.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Structural and biochemical analysis of the dual-specificity Trm10 enzyme from prompts reconsideration of its catalytic mechanism.

Singh, R. Kumar, A. Feller, M. Roovers, D. Van Elder, L. Wauters, L. Droogmans, and W. Versées, "Structural and biochemical analysis of the dual-specificity Trm10 enzyme from prompts reconsideration of its catalytic mechanism.", RNA, vol. 24, issue 8, pp. 1080-1092, 2018 08.

• Read more about Structural and biochemical analysis of the dual-specificity Trm10 enzyme from prompts reconsideration of its catalytic mechanism.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Biochemical and kinetic properties of the complex Roco G-protein cycle.

Wauters, L., S. Terheyden, B. K. Gilsbach, M. Leemans, P. S. Athanasopoulos, G. Guaitoli, A. Wittinghofer, C. Johannes Gloeckner, W. Versées, and A. Kortholt, "Biochemical and kinetic properties of the complex Roco G-protein cycle.", Biol Chem, vol. 399, issue 12, pp. 1447-1456, 2018 11 27.

• Read more about Biochemical and kinetic properties of the complex Roco G-protein cycle.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Structural and biochemical characterization of the nucleoside hydrolase from C. elegans reveals the role of two active site cysteine residues in catalysis.

Singh, R. Kumar, J. Steyaert, and W. Versées, "Structural and biochemical characterization of the nucleoside hydrolase from C. elegans reveals the role of two active site cysteine residues in catalysis.", Protein Sci, vol. 26, issue 5, pp. 985-996, 2017 05.

• Read more about Structural and biochemical characterization of the nucleoside hydrolase from C. elegans reveals the role of two active site cysteine residues in catalysis.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Structural and biochemical analysis of ObgE, a central regulator of bacterial persistence.

Gkekas, S., R. Kumar Singh, A. V. Shkumatov, J. Messens, M. Fauvart, N. Verstraeten, J. Michiels, and W. Versées, "Structural and biochemical analysis of ObgE, a central regulator of bacterial persistence.", J Biol Chem, vol. 292, issue 14, pp. 5871-5883, 2017 04 07.

• Read more about Structural and biochemical analysis of ObgE, a central regulator of bacterial persistence.
• Log in to post comments
• Google Scholar
• PubMed
• DOI

Pages