Ph.D. position - Plant cell biology and abiotic stress

A funded Ph.D. student position is available at the Chair of Plant Systems Biology at the LifeScienes campus of the Technische Universität München in Freising-Weihenstephan.
 
Gibberellin in abiotic stress in Arabidopsis and tomato

We seek a motivated Ph.D. student to strengthen our highly interactive and collaborative team. The project integrates biochemical and cell biological approaches to understand the molecular mechanisms of abiotic stress regulation through the gibberellin pathway and DELLA proteins in Arabidopsis and tomato. The ideal applicant shows a strong interest in protein biochemistry, cell biology and has a background in plant biology. The project is integrated into the SFB924, a very active Munich-based plant science network (www.sfb924.de).

The Chair of Plant Systems Biology has expertise in a broad spectrum of molecular, cell biological, biochemical and genetic techniques, as well as in confocal microscopy. The laboratory has access to all techniques and equipment required to do state-of-the-art plant research.

Please send a letter of motivation and CV in a single PDF to: claus.schwechheimer@wzw.tum.de
The position is available immediately and will remain open until filled.

Activities and responsibilities

We seek a motivated Ph.D. student to strengthen our highly interactive and collaborative team. The project integrates biochemical and cell biological approaches to understand the molecular mechanisms of abiotic stress regulation through the gibberellin pathway and DELLA proteins in Arabidopsis and tomato. The ideal applicant shows a strong interest in protein biochemistry, cell biology and has a background in plant biology. The project is integrated into the SFB924, a very active Munich-based plant science network (www.sfb924.de).

Qualification profile

The Chair of Plant Systems Biology has expertise in a broad spectrum of molecular, cell biological, biochemical and genetic techniques, as well as in confocal microscopy. The laboratory has access to all techniques and equipment required to do state-of-the-art plant research.

Further information and publications

Website of the Chair: http://sysbiol.wzw.tum.de

Website of the SFB924: http://sfb924.wzw.tum.de

DiSUMO-LIKE Interacts with RNA-Binding Proteins and Affects Cell-Cycle Progression during Maize Embryogenesis.Chen J, Kalinowska K, Müller B, Mergner J, Deutzmann R, Schwechheimer C, Hammes UZ, Dresselhaus T. Curr Biol.2018 May 21;28(10):1548-1560.e5.

Largely additive effects of gibberellin and strigolactone on gene expression in Arabidopsis thaliana seedlings.Lantzouni O, Klermund C, Schwechheimer C. Plant J. 2017 Dec;92(5):924-938.

The Arabidopsis NPF3 protein is a GA transporter.Tal I, Zhang Y, Jørgensen ME, Pisanty O, Barbosa IC, Zourelidou M, Regnault T, Crocoll C, Olsen CE, Weinstain R, Schwechheimer C, Halkier BA, Nour-Eldin HH, Estelle M, Shani E. Nat Commun. 2016 May 3;7:11486.

Convergence of auxin and gibberellin signaling on the regulation of the GATA transcription factors GNC and GNL in Arabidopsis thaliana.Richter R, Behringer C, Zourelidou M, Schwechheimer C. Proc Natl Acad Sci U S A.2013 Aug 6;110(32):13192-7.

The GATA-type transcription factors GNC and GNL/CGA1 repress gibberellin signaling downstream from DELLA proteins and PHYTOCHROME-INTERACTING FACTORS.Richter R, Behringer C, Müller IK, Schwechheimer C. Genes Dev.2010 Sep 15;24(18):2093-104.

Send application to

Technische Universität München
Prof. Dr. Claus Schwechheimer
claus.schwechheimer@wzw.tum.de
Tel. +49 8161 712880; Fax +49 8161 712886

Bitte beziehen Sie sich bei Ihrer Bewerbung auf jobvector

Über Technische Universität München - Wissenschaftszentrum Weihenstephan

 Der Lehrstuhl Systembiologie der Pflanzen untersucht Fragestellungen zur Signaltransduktion und Zellbiologie bei Pflanzen durch die Integration modernster Methoden der Genomik und Proteomik mit genetischen, zellbiologischen und physiologischen Analysen. Momentan liegt das Hauptinteresse auf Untersuchungen zu Hormonsignaltransduktionsprozessen (Auxin und Gibberellin) in der Modellpflanze...
Mehr über Technische Universität München - Wissenschaftszentrum Weihenstephan