Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- The University of Queensland
- University of Sydney
- Curtin University
- Australian National University
- CSIRO
- UNIVERSITY OF SYDNEY
- UNIVERSITY OF WESTERN AUSTRALIA
- University of Adelaide
- University of New South Wales
- AUSTRALIAN NATIONAL UNIVERSITY (ANU)
- Australian Academy of Science Research Funding
- Deakin University
- La Trobe University
- Monash University
- The University of Western Australia
- WESTERN SYDNEY UNIVERSITY
- 6 more »
- « less
-
Field
-
to research-based activities, including the development of new data analysis algorithms, processing and analysis of field data, and participation in the fieldwork. Your responsibilities will include: Conduct
-
algorithms and methods for adaptive and personalised feedback, modelling learning behaviours with sequence and deep learning methods, and generating interpretable insights through novel analytics and
-
of classical and hybrid classical-quantum algorithms for treating the correlations. This position offers exciting opportunities for collaboration within UQ, across the QDA network, and with external research
-
work. About you PhD in Neuroscience, Ophthalmology, Vision Sciences, or a related field experience working with iPSC-derived neuronal cultures and primary neurons experience with molecular genetics
-
management, agronomic practices, sustainable farming systems or related areas, preferably in grain crops. Working in teams to understand and harness genetic-environment-agronomic management interactions
-
genetic constructs in plant cells. Analysing lipid content and composition. Carrying out innovative, impactful quantitative fractionation improvement and importance to CSIRO that will, where possible, lead
-
of current gene therapy methods by providing safer, more targeted, and durable genetic treatments and enabling novel therapies for retinal and optic nerve diseases. In addition to research responsibilities
-
cells (SSCs) Our research investigates the genetic regulators and cellular pathways that control spermatogonial stem cell (SSC) function and male fertility. Previous work from our group has identified key
-
trials of genetically modified cellular (CAR-T cell) immunotherapies for patients with haematologic malignancies. The School of Medical Sciences in the Faculty of Medicine and Health has an exciting
-
. This innovative approach aims to overcome limitations of current gene therapy methods by providing safer, more targeted, and durable genetic treatments and enabling novel therapies for retinal and optic nerve