Ruprecht-Karls-Universität Heidelberg
HBIGS homepage | Forgot password
LohmannI0118 - Scientist (f/m) / PhD position
Project no:

Project leader:

Project supervisor:
Lohmann, Ingrid
Application deadline:
31. Jan 2019
Start of PhD project:
1. Mar 2019

Project description:

Stem cell behaviour in the Drosophila testis
The Lohmann lab ( works on elucidating the role of HOX transcription factors in defining cell fate using Drosophila as a model. We are located at the Centre for Organismal Studies (COS) at the University of Heidelberg, Germany and part of the collaborative research network SFB873 “Maintenance and Differentiation of Stem Cells in Development and Disease” (https://www.cos.uniheidelberg.
We now seek for enthusiastic new colleagues to analyze the interplay between germline stem cells and their support cells under homeostatic and compromised cellular conditions. In particular, the project aims at identifying pathways monitoring genome integrity in stem cells and at uncovering the role of mitotic checkpoint components in monitoring asymmetric stem cell division in the male germline. The project builds on a wide array of advanced resources established in the Lohmann lab and will provide ample opportunity to implement and apply high-end techniques to investigate stem cells of the Drosophila male stem cell system at multiple scales.
1. Papagiannouli F, Schardt L, Grajcarek J, Ha N and Lohmann I (2014). The Hox
gene Abd-B controls stem cell niche function in the Drosophila testis.
Developmental Cell 28, 189-202.
2. Merabet S and Lohmann I (2015). Towards a new twist in Hox and TALE DNAbinding
specificity. Developmental Cell 32(3):259-261.
3. Tamirisa S, Papagiannouli F, Rempel E, Ermakova O, Trost N, Zhou J, Mundorf J,
Brunel S, Ruhland N, Boutros M, Lohmann JU and Lohmann I (2018). Decoding
the Regulatory Logic of the Drosophila Male Stem Cell System. Cell Reports
4. Trost N, Rempel E, Ermakove O, Tamirisa S, Parcalabescu, Boutros M, Lohmann
JU and Lohmann I (2018). WEADE: A workflow for enrichment analysis and data
exploration. PLoS One 13(9):e0204016.
Methods that will be used:
Cooperation partners:
The Heidelberg Molecular Life Science Community offers a vibrant stem cell research community, as well as state-of-the-art core facilities. You will have the opportunity to closely collaborate with highly recognized stem cell researchers of the SFB873 and beyond.
Personal qualifications:
Successful candidates will have experience in confocal microscopy, advanced immunohistochemistry and possibly in Drosophila genetics and molecular biology.
The ability to quickly integrate into an interdisciplinary team and work independently within an academic research environment is essential.