Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations

Johannes Niederhauser, Sarah Pratter, Grit Daniela Straganz

Research output: Contribution to conferencePosterResearch

Original languageGerman
Publication statusPublished - 2012
EventEnzymes & Signals - A research summit of the DK Molecular Enzymology and the DK Molecular Mechanisms of Cell Signaling - Graz, Austria
Duration: 9 Dec 201211 Dec 2012

Conference

ConferenceEnzymes & Signals - A research summit of the DK Molecular Enzymology and the DK Molecular Mechanisms of Cell Signaling
CountryAustria
CityGraz
Period9/12/1211/12/12

Fields of Expertise

  • Human- & Biotechnology

Cite this

Niederhauser, J., Pratter, S., & Straganz, G. D. (2012). Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations. Poster session presented at Enzymes & Signals - A research summit of the DK Molecular Enzymology and the DK Molecular Mechanisms of Cell Signaling, Graz, Austria.

Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations. / Niederhauser, Johannes; Pratter, Sarah; Straganz, Grit Daniela.

2012. Poster session presented at Enzymes & Signals - A research summit of the DK Molecular Enzymology and the DK Molecular Mechanisms of Cell Signaling, Graz, Austria.

Research output: Contribution to conferencePosterResearch

Niederhauser, J, Pratter, S & Straganz, GD 2012, 'Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations' Enzymes & Signals - A research summit of the DK Molecular Enzymology and the DK Molecular Mechanisms of Cell Signaling, Graz, Austria, 9/12/12 - 11/12/12, .
Niederhauser J, Pratter S, Straganz GD. Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations. 2012. Poster session presented at Enzymes & Signals - A research summit of the DK Molecular Enzymology and the DK Molecular Mechanisms of Cell Signaling, Graz, Austria.
Niederhauser, Johannes ; Pratter, Sarah ; Straganz, Grit Daniela. / Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations. Poster session presented at Enzymes & Signals - A research summit of the DK Molecular Enzymology and the DK Molecular Mechanisms of Cell Signaling, Graz, Austria.
@conference{17af7fd6319148caa36ca9f27d433808,
title = "Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations",
author = "Johannes Niederhauser and Sarah Pratter and Straganz, {Grit Daniela}",
year = "2012",
language = "deutsch",
note = "null ; Conference date: 09-12-2012 Through 11-12-2012",

}

TY - CONF

T1 - Design of a whole-cell-biocatalyst for chiral hydroxylation: towards an efficient, sustainable pathway for the biosynthesis of pharmaceutical building blocks via specific oxygenations

AU - Niederhauser, Johannes

AU - Pratter, Sarah

AU - Straganz, Grit Daniela

PY - 2012

Y1 - 2012

UR - http://portal.tugraz.at/portal/page/portal/TU_Graz/News_Stories/DK-Forschungsgipfel

M3 - Poster

ER -