Back to search results

PhD Studentship: Regulation of RNA:DNA Hybrid Metabolism for Genome Stability

University of Birmingham - Department of Cancer and Genomic Sciences

Qualification Type: PhD
Location: Birmingham
Funding for: UK Students, EU Students, International Students
Funding amount: Funded by the Midlands Integrative Biosciences Training Partnership
Hours: Full Time
Placed On: 14th November 2024
Closes: 16th January 2025

Proper regulation of RNA:DNA hybrids such as misincorporated ribonucleotides and R-loops is important for genome stability and healthy development. Excessive RNA:DNA hybrids can cause DNA damage and block DNA replication, causing replication stress, genome instability and inflammation. This project will investigate the regulation of RNA:DNA hybrids in human cells, employing a wide range of molecular and chemical biology techniques including cell-based assays, mass spectrometry and structural modelling.

RNaseH2 is a heterotrimeric enzyme that removes genomic RNA:DNA hybrids. RNaseH2A has the active site while RNaseH2B and RNaseH2C are regulatory subunits. RNaseH2 is essential for genome stability in animals, fungi and plants and defects in RNaseH2 activity are associated with neurodevelopmental autoinflammatory disorders. We have shown that RNaseH2 protein levels are upregulated in response to cellular growth signalling and replication stress induced by pharmaceutic drugs. High RNaseH2 levels promote replication stress resistance. The regulation of the RNaseH2 proteins remains unexplored but might provide opportunities for therapeutic targeting.

We have generated human cell lines for inducible overexpression of each RNaseH2 subunit, and showed that we can stabilise the protein levels of the endogenous subunits and increase cellular RNaseH2 activity. Increased RnaseH2 activity prevents replication fork stalling and protects genome stability. This project will utilise our cell models to investigate RNaseH2 protein-protein interactions and protein regulation, and how these impinge on RNA:DNA hybrids and replication stress in cells. It will provide training in a range of state-of-the-art molecular and cellular techniques relevant for understanding healthy development and how cells protects themselves from genomic instability and inflammation.

This is a collaborative project between two dynamic research groups and will provide ample opportunities for networking and career development within a vibrant research centre and a wider doctoral training partnership. We encourage an inclusive, supportive lab culture and mentor team members for their career progression.

https://www.evapetermann.org/
https://www.birmingham.ac.uk/staff/profiles/cancer-genomic/petermann-eva
https://www.birmingham.ac.uk/staff/profiles/cancer-genomic/turnell-andrew

Funding notes:

This project is funded by the Midlands Integrative Biosciences Training Partnership. For more information and how to apply, please visit https://warwick.ac.uk/fac/cross_fac/mibtp/ where applications will open shortly.

Supervision team: Professor Eva Petermann (e.petermann@bham.ac.uk) and Dr Andrew Turnell.

References:

Petermann, E., Lan, L. & Zou, L. Sources, resolution and physiological relevance of R-loops and RNA-DNA hybrids. Nat Rev Mol Cell Biol 23, 521-540 (2022).

Nazeer, R., Qashqari, F.S.I., Albalawi, A.S., Piberger, A.L., Tilotta, M.T., Read, M.L., Hu, S.Y., Davis, S., McCabe, C.J., Petermann, E. & Turnell, A.S. Adenovirus E1B 55-Kilodalton Protein Targets SMARCAL1 for Degradation during Infection and Modulates Cellular DNA Replication. Journal of virology 93 (2019).

Kotsantis, P., Silva, L.M., Irmscher, S., Jones, R.M., Folkes, L., Gromak, N. & Petermann, E. Increased global transcription activity as a mechanism of replication stress in cancer. Nat Commun 7, 13087 (2016).

We value your feedback on the quality of our adverts. If you have a comment to make about the overall quality of this advert, or its categorisation then please send us your feedback
Advert information

Type / Role:

Subject Area(s):

Location(s):

PhD tools
 

PhD Alert Created

Job Alert Created

Your PhD alert has been successfully created for this search.

Your job alert has been successfully created for this search.

Ok Ok

PhD Alert Created

Job Alert Created

Your PhD alert has been successfully created for this search.

Your job alert has been successfully created for this search.

Manage your job alerts Manage your job alerts

Account Verification Missing

In order to create multiple job alerts, you must first verify your email address to complete your account creation

Request verification email Request verification email

jobs.ac.uk Account Required

In order to create multiple alerts, you must create a jobs.ac.uk jobseeker account

Create Account Create Account

Alert Creation Failed

Unfortunately, your account is currently blocked. Please login to unblock your account.

Email Address Blocked

We received a delivery failure message when attempting to send you an email and therefore your email address has been blocked. You will not receive job alerts until your email address is unblocked. To do so, please choose from one of the two options below.

Max Alerts Reached

A maximum of 5 Job Alerts can be created against your account. Please remove an existing alert in order to create this new Job Alert

Manage your job alerts Manage your job alerts

Creation Failed

Unfortunately, your alert was not created at this time. Please try again.

Ok Ok

Create PhD Alert

Create Job Alert

When you create this PhD alert we will email you a selection of PhDs matching your criteria.When you create this job alert we will email you a selection of jobs matching your criteria. Our Terms and Conditions and Privacy Policy apply to this service. Any personal data you provide in setting up this alert is processed in accordance with our Privacy Notice

Create PhD Alert

Create Job Alert

When you create this PhD alert we will email you a selection of PhDs matching your criteria.When you create this job alert we will email you a selection of jobs matching your criteria. Our Terms and Conditions and Privacy Policy apply to this service. Any personal data you provide in setting up this alert is processed in accordance with our Privacy Notice

 
 
 
More PhDs from University of Birmingham

Show all PhDs for this organisation …

More PhDs like this
Join in and follow us

Browser Upgrade Recommended

jobs.ac.uk has been optimised for the latest browsers.

For the best user experience, we recommend viewing jobs.ac.uk on one of the following:

Google Chrome Firefox Microsoft Edge