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

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 conference › Poster

Original language	English
Publication status	Published - 2013
Event	9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology - Graz Duration: 8 Feb 2013 → 8 Mar 2013

Conference

Conference	9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology
City	Graz
Period	8/02/13 → 8/03/13

Fields of Expertise

Human- & Biotechnology

Treatment code (Nähere Zuordnung)

Basic - Fundamental (Grundlagenforschung)
Application
Experimental

1 Finished

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.
1/01/05 → 31/12/17
Project: Research project

Cite this

Eixelsberger, T., Sykora, S., Egger, S., Brunsteiner, M., Kavanagh, K., Oppermann, U., Brecker, L., & 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.

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. / Eixelsberger, Thomas; Sykora, Sabine; Egger, Sigrid et al.

2013. Poster session presented at 9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology, Graz.

Research output: Contribution to conference › Poster

Eixelsberger, T, Sykora, S, Egger, S, Brunsteiner, M, Kavanagh, K, Oppermann, U, Brecker, L & 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', 9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology, Graz, 8/02/13 - 8/03/13.

@conference{378beab694124913bfa941e213a850bd,

title = "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",

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

year = "2013",

language = "English",

note = "9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology ; Conference date: 08-02-2013 Through 08-03-2013",

}

TY - CONF

T1 - 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

AU - Eixelsberger, Thomas

AU - Sykora, Sabine

AU - Egger, Sigrid

AU - Brunsteiner, Michael

AU - Kavanagh, Kathryn

AU - Oppermann, Udo

AU - Brecker, Lothar

AU - Nidetzky, Bernd

PY - 2013

Y1 - 2013

M3 - Poster

T2 - 9th DocDay of the Doctoral School of Molecular Biosciences and Biotechnology

Y2 - 8 February 2013 through 8 March 2013

ER -

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

Conference

Fields of Expertise

Treatment code (Nähere Zuordnung)

Projects

Doctoral Program: Molecular Enzymology

Cite this