Team:TU-Munich/Team/Attributions

The research group at the [http://biologische-chemie.userweb.mwn.de/index.html Chair of Biological Chemistry] at TUM works in the biochemical field of protein engineering and design with its objectives set on the construction of artifical proteins with novel functions through rational as well as deductive research approaches. In this context, a range of methods facilitating the functional and structural analysis of native proteins was developed over the last years, with an increasing role of protein crystallography.

Laboratory of Prof. Dr. Helmreich

[http://www.sww.bv.tum.de Sanitary Environmental Engineering] is a horizontal discipline comprised of civil engineering, process engineering and chemistry/biology. Research and teaching include the fields of water suppy, sewage and rain water treatment, water quality and the modelling of aquatic systems. The complex scope demands fundamental as well as practical oriented research. The interdisciplinary team composition at the chair, consisting of engineers as well as natural scientists, works on the current topics of biofilm systems, dynamic simulation, process control and optimization of industrial processes, modeling of water quality, development of novel innovative industrial cleaning systems, development of holistic approaches on entire urban regions, fundamental research in the analysis of genetic information and transport and reaction mechanisms in microbial systems, rainwater, anaerobic technology and energy production.

Laboratory of Prof. Dr. Grill ([http://www.botanik.wzw.tum.de Chair for Botany])

Laboratory of Prof. Dr. Langosch

The [http://www.wzw.tum.de/biopolymere Chair for Chemistry of Biopolymers] focuses on the structural biochemistry of integral membrane proteins. Core themes are molecular interactions between membrane proteins, strucural dynamics of membrane bound protein helices, membrane protein/lipid interactions, structure/function relationships of integral membrane protein complexes (membranefusion, intermembrane proteolysis, lipidflip)

Laboratory of Prof. Dr. Schwechheimer

The [http://www.sysbiol.wzw.tum.de Chair for Systems Biology of Plants] investigates a range of queries concerning the ubiquitin proteasome system of plants applying a combination of genetics, molecular biology and cell biology with both genomic and proteomic approaches. The ubiquitin proteasome system plays a central role in the correct signal transduction of the hormones auxin and gibberellin.

Laboratory of Prof. Dr. Reski ([http://www.plant-biotech.net/ Chair for Plant Biotechnology] at Freiburg University)

We would especially like to thank Dr. Gertrud Wiedemann, who kindly took the time and patience to teach us the protoplast transfection method at her lab. Also a big thank you to Omar Saleh, who helped us with the osmometer and to Anja Kuberski.

Laboratory of Prof. Dr. Fussenegger ([http://www.bsse.ethz.ch/groups/group_fussenegger/index/ Chair for Biotechnology and Bioengineering] at ETH Zurich)

Kindly provided us with the plasmids pSH21.

Laboratory of Dr. G.D. Wright ([http://www.thewrightlab.com Wright Lab] at McMaster University)

Kindly provided us with the plasmid pDEST14 which contains the genes ereA and ereB.

Laboratory of Prof. Dr. Arndt ([http://www.uni-potsdam.de/index.php?id=13895 Chair for Molecular Biotechnology] at Potsdam University)

Sven Hagen kindly provided us with the plasmids pBad-mVenus (RFC 25).

James Padolsey ([http://james.padolsey.com see his website])

We used his jQuery extension for [http://james.padolsey.com/javascript/cross-domain-requests-with-jquery/ Cross-domain AJAX requests] in the AutoAnnotator.