Thinking of doing your PhD in the Life Sciences? The International PhD Programme (IPP) Mainz is offering talented scientists the chance to work on cutting edge research projects within the open call on “Molecular Mechanisms in Genome Stability & Gene Regulation”. As an IPP PhD student, you will join a community of exceptional scientists working on diverse topics ranging from how organisms age or how our DNA is repaired, to how epigenetics regulates cellular identity or neural memory.
The research group of Ulrich Hohmann offers the following PhD project:
Nuclear mRNA export is an essential step in eukaryotic gene expression, ensuring that mature transcripts are delivered from the nucleus to the cytoplasm for translation. Multiple challenges are faced in this process: How are mRNAs discriminated against all other nuclear RNAs? How does the cell ensure that only fully matured mRNAs are exported? How are faulty mRNAs and transcription byproducts targeted for degradation? At the core of mRNA nuclear export works an evolutionary conserved machinery centered on a large protein complex: TREX. While we recently uncovered a mechanistic framework of the core of this pathway, the regulatory layers, connections to diverse cellular processes and repurposing for the export of non-canonical mRNAs remains cryptic.
The research group of Ulrich Hohmann offers the following PhD project:
Nuclear mRNA export is an essential step in eukaryotic gene expression, ensuring that mature transcripts are delivered from the nucleus to the cytoplasm for translation. Multiple challenges are faced in this process: How are mRNAs discriminated against all other nuclear RNAs? How does the cell ensure that only fully matured mRNAs are exported? How are faulty mRNAs and transcription byproducts targeted for degradation? At the core of mRNA nuclear export works an evolutionary conserved machinery centered on a large protein complex: TREX. While we recently uncovered a mechanistic framework of the core of this pathway, the regulatory layers, connections to diverse cellular processes and repurposing for the export of non-canonical mRNAs remains cryptic.
PhD Project: Mechanistic insights into novel mRNA export complexes
Activities and responsibilities
During transcription each Polymerase II transcript engages with various RNA binding proteins to form a ribonucleoprotein complex (mRNP). A key player is the TREX complex, consisting of the DExD-box ATPase UAP56 and the THO complex, which is crucial to aid co-transcriptional mRNP packaging. Failure to engage TREX leads to entanglement of the nascent RNA with DNA, producing R-loops and resulting in genome instability. Intriguingly, TREX can only be recruited to an mRNA through UAP56. We previously discovered multiple novel direct interactors of UAP56, however their specific function is unclear.
Using a combination of biochemical reconstitution, biophysical characterization and structural biology (including AlphaFold predictions and cryo-Electron Microscopy), we will investigate the formation of novel mRNP packaging complexes. Applying cellular assays (endogenous CRISPR-tagging, reporter systems, RNA-FISH), proteomics, transcriptomics and high-resolution microscopy we will further dissect the co-transcriptional recruitment of the packaging and export machinery to nascent RNAs. By integrating molecular biology, genetics, and biophysical approaches, we aim to obtain new mechanistic insights into the co-transcriptional packaging of mRNPs, a central aspect of nuclear gene expression.
This project will be part of the RTG on R-loop Regulation in Robustness and Resilience (4R).
If you are interested in this project, please select Hohmann as your group preference in the IPP application platform.
Using a combination of biochemical reconstitution, biophysical characterization and structural biology (including AlphaFold predictions and cryo-Electron Microscopy), we will investigate the formation of novel mRNP packaging complexes. Applying cellular assays (endogenous CRISPR-tagging, reporter systems, RNA-FISH), proteomics, transcriptomics and high-resolution microscopy we will further dissect the co-transcriptional recruitment of the packaging and export machinery to nascent RNAs. By integrating molecular biology, genetics, and biophysical approaches, we aim to obtain new mechanistic insights into the co-transcriptional packaging of mRNPs, a central aspect of nuclear gene expression.
This project will be part of the RTG on R-loop Regulation in Robustness and Resilience (4R).
If you are interested in this project, please select Hohmann as your group preference in the IPP application platform.
Qualification profile
Are you an ambitious scientist looking to push the boundaries of research while interacting with colleagues from multiple disciplines and cultures? Then joining the IPP is your opportunity to give your scientific career a flying start!
All you need is:
All you need is:
- Master or equivalent
- Interactive personality & good command of English
- 2 letters of reference
We offer
- Exciting, interdisciplinary projects in a lively international environment, with English as our working language
- Advanced training in scientific techniques and professional skills
- Access to our state-of-the-art Core Facilities and their technical expertise
- Fully funded positions with financing until the completion of your thesis
- A lively community of more than 200 PhD students from 44 different countries
For more details on the projects offered and how to apply via the online form using the apply button.
The deadline for applications is 1 April 2026. Interviews will take place at IMB in Mainz on 22 & 23 June 2026.
Starting date: 1 July - 31 December 2026
The deadline for applications is 1 April 2026. Interviews will take place at IMB in Mainz on 22 & 23 June 2026.
Starting date: 1 July - 31 December 2026
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