Sort by
Refine Your Search
-
integration into neural circuits to result in functional, restored behaviour. We will use the fruit-fly Drosophila as a model organism for its powerful genetics and molecular cell biology (e.g. CRISPR/Cas9 gene
-
& Environment 2. Al-Haj and Fulweiler (2020) ‘A synthesis of methane emissions from shallow vegetated coastal ecosystems’, Global Change Biology, 26. Jameson et al. (2019) ‘Deltaproteobacteria and
-
autophagy and the innate immunity response. Using cutting-edge omics (transcriptomics/proteomics), advanced imaging (confocal) and cellular biology approaches (macrophages, autophagy biomarkers), this project
-
been enhanced through predictive structural biology tools such as AlphaFold, which allow accurate prediction of effector structures from primary sequence. We recently identified a number of immune
-
the student with training in diverse techniques related to molecular and cellular biology, bioinformatics and protein biochemistry. A key activity in this project will be the use of targeted reverse genetics
-
. Approaches and goals: The overarching goal is a molecular-level understanding of this important but understudied family of molecules achieved through a multi-disciplinary approach encompassing cell biology
-
: Ahola et al. Trends in Cell Biology 2024 doi: 10.1016/j.tcb.2023.06.002. Ahola et al. Cell Metabolism 2022 DOI: 10.1016/j.cmet.2022.08.017
-
of mostly water and molecules such as proteins, lipids and sugars that decay every day, so we eat and sleep to restore daily our cell biology. Synapses and changes in cell shape are made and unmade every day
-
Main description: Native mass spectrometry is an expanding structural biology tool to elucidate the function of protein complexes. Excitingly, the demand for this technology is increasing. However
-
of mostly water and molecules such as proteins, lipids and sugars that decay every day, so we eat and sleep to restore daily our cell biology. Synapses and changes in cell shape are made and unmade every day