Details
- Close date
- No date set
- Academic background
- Health Sciences
- Host campus
- Dunedin
- Qualification
- Master's, PhD, Honours
- Department
- Pathology (Dunedin)
- Supervisor
- Dr Sunali Mehta
Overview
Cancer is a major health burden in New Zealand and accounts for one in three deaths.
Cancer related deaths are mainly due to spread of the disease (metastasis) and resistance to treatment. These features are a result of tumour evolution, which is driven by continuous changes in DNA, and one such process is called chromosomal instability (CIN).
The student project will aim to use cutting edge technology including long read sequencing, CRISPR-Cas9 gene editing and live cell imaging to characterise how tumour cells adapt to CIN, which in turn allows these cells to spread to distant organs and develop resistance to treatment. Results from this study will enable us to identify ways of targeting pathways that promote CIN in tumours and as a result treat aggressive cancers that are resistant to treatment.
Useful information
Similar research opportunities
- A phoenix from the ashes: Do dying cancer cells induce drug-tolerance in lung cancer?
- A role for untranslated p53 mRNA in drug resistance
- Characterisation of YB-1 interactions with the cytoskeleton using live cell imaging
- Characteristion of YB-1 interactions with the cytoskeleton using live cell imaging
- Comprehensive characterization of uncommon TP53 mutations in cancer