Simon Cobbold
Affiliations: | Princeton University, Princeton, NJ |
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| Jonsdottir TK, Elsworth B, Cobbold S, et al. (2023) PTEX helps efficiently traffic haemoglobinases to the food vacuole in Plasmodium falciparum. Plos Pathogens. 19: e1011006 |
| Cobbold SA, V Tutor M, Frasse P, et al. (2021) Non-canonical metabolic pathways in the malaria parasite detected by isotope-tracing metabolomics. Molecular Systems Biology. 17: e10023 |
| Fisher GM, Cobbold SA, Jezewski A, et al. (2020) The Key Glycolytic Enzyme Phosphofructokinase Is Involved in Resistance to Antiplasmodial Glycosides. Mbio. 11 |
| Shafik SH, Cobbold SA, Barkat K, et al. (2020) The natural function of the malaria parasite's chloroquine resistance transporter. Nature Communications. 11: 3922 |
| King EFB, Cobbold SA, Uboldi AD, et al. (2020) Metabolomic Analysis of Toxoplasma gondii Tachyzoites. Methods in Molecular Biology (Clifton, N.J.). 2071: 435-452 |
| Dumont L, Richardson MB, van der Peet P, et al. (2019) The Metabolite Repair Enzyme Phosphoglycolate Phosphatase Regulates Central Carbon Metabolism and Fosmidomycin Sensitivity in Plasmodium falciparum. Mbio. 10 |
| Sernee MF, Ralton JE, Nero TL, et al. (2019) A Family of Dual-Activity Glycosyltransferase-Phosphorylases Mediates Mannogen Turnover and Virulence in Leishmania Parasites. Cell Host & Microbe. 26: 385-399.e9 |
| Kennedy K, Cobbold SA, Hanssen E, et al. (2019) Delayed death in the malaria parasite Plasmodium falciparum is caused by disruption of prenylation-dependent intracellular trafficking. Plos Biology. 17: e3000376 |
| Cobbold SA, McConville MJ. (2019) Determining the Mode of Action of Antimalarial Drugs Using Time-Resolved LC-MS-Based Metabolite Profiling. Methods in Molecular Biology (Clifton, N.J.). 1859: 225-239 |
| Bridgford JL, Xie SC, Cobbold SA, et al. (2018) Artemisinin kills malaria parasites by damaging proteins and inhibiting the proteasome. Nature Communications. 9: 3801 |