Structure and mechanism of human UDP-xylose synthase: evidence for a promoting role of sugar ring distortion in a three-step catalytic conversion of UDP-glucuronic acid

Thomas Eixelsberger, Sabine Sykora, Sigrid Egger, Michael Brunsteiner, Kathryn Kavanagh, Udo Oppermann, Lothar Brecker, Bernd Nidetzky

Research output: Contribution to conferencePoster

Original languageEnglish
Publication statusPublished - 2013
Event9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology - Graz
Duration: 8 Feb 20138 Mar 2013

Conference

Conference9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology
CityGraz
Period8/02/138/03/13

Fields of Expertise

  • Human- & Biotechnology

Treatment code (Nähere Zuordnung)

  • Basic - Fundamental (Grundlagenforschung)
  • Application
  • Experimental

Projects

Doctoral Program: Molecular Enzymology

Luley, C., Egger, S., Griengl, H., Lehsl, A., Lypetska, K., Malik, I. S., Schwab, H., Flis, V. V., Glieder, A., Fuchs, A., Marlingapla Halasiddappa, L., Hermetter, A., Pratter, S., Prattner, J., Freigaßner, M. E., Czabany, T., Schitter-Sollner, S., Macheroux, P., Eixelsberger, T., Thonhauser, M., Horvath, S., Nidetzky, B., Winkler, A., Daum, G., Connerth, M. & Rajakumari, S.

1/01/0531/12/17

Project: Research project

Cite this

Eixelsberger, T., Sykora, S., Egger, S., Brunsteiner, M., Kavanagh, K., Oppermann, U., ... Nidetzky, B. (2013). Structure and mechanism of human UDP-xylose synthase: evidence for a promoting role of sugar ring distortion in a three-step catalytic conversion of UDP-glucuronic acid. Poster session presented at 9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology, Graz, .