Overview
Availability
- Dr Amila Agampodi Dewa is:
- Available for supervision
Qualifications
- Bachelor (Honours) of Pharmaceutical Sciences, University of Colombo
- Doctor of Philosophy of Natural Products Chemistry, The University of Queensland
Works
Search Professor Amila Agampodi Dewa’s works on UQ eSpace
2025
Journal Article
Studies Concerned with the Structure and Synthesis of the Anti-viral Tropolone Glycoside Liriosmaside A
Chen, Qi, Zhan, Yaping, Gardiner, Michael G., Khalil, Zeinab G., Dewa, Amila A., Sritharan, Thulasi, Capon, Robert J., Lan, Ping, Tan, Shen and Banwell, Martin G. (2025). Studies Concerned with the Structure and Synthesis of the Anti-viral Tropolone Glycoside Liriosmaside A. ChemistryOpen. doi: 10.1002/open.202500011
2024
Journal Article
Pullenvalenes E–H: Triterpenyl-Aminoglycosides from an Australian Soil-Derived Fungus, <i>Clonostachys</i> sp
Wang, Yanan, Kiong, Jolynn, Dewa, Amila Agampodi, Salim, Angela A., Khalil, Zeinab G. and Capon, Robert J. (2024). Pullenvalenes E–H: Triterpenyl-Aminoglycosides from an Australian Soil-Derived Fungus, Clonostachys sp. Journal of Natural Products, 87 (11), 2649-2656. doi: 10.1021/acs.jnatprod.4c01068
2024
Journal Article
Pullenvalenes A–D: Nitric oxide-mediated transcriptional activation (NOMETA) enables discovery of triterpene aminoglycosides from Australian Termite nest-derived fungi
Dewa, Amila Agampodi, Khalil, Zeinab G., Hussein, Waleed M., Jin, Shengbin, Wang, Yanan, Cruz-Morales, Pablo and Capon, Robert J. (2024). Pullenvalenes A–D: Nitric oxide-mediated transcriptional activation (NOMETA) enables discovery of triterpene aminoglycosides from Australian Termite nest-derived fungi. Journal of Natural Products, 87 (4), 935-947. doi: 10.1021/acs.jnatprod.3c01233
2022
Other Outputs
Microbial biodiversity: Expanding acess to microbial chemical diversity using new techniques
Agampodi Dewa, Amila (2022). Microbial biodiversity: Expanding acess to microbial chemical diversity using new techniques. PhD Thesis, Institute for Molecular Bioscience, The University of Queensland. doi: 10.14264/6149d28
2022
Journal Article
Chrysosporazines revisited: regioisomeric phenylpropanoid piperazine p-glycoprotein inhibitors from Australian marine fish-derived fungi
Agampodi Dewa, Amila, Khalil, Zeinab G., Elbanna, Ahmed H. and Capon, Robert J. (2022). Chrysosporazines revisited: regioisomeric phenylpropanoid piperazine p-glycoprotein inhibitors from Australian marine fish-derived fungi. Molecules, 27 (10) 3172, 1-18. doi: 10.3390/molecules27103172
2022
Journal Article
Neochrysosporazines: precursor-directed biosynthesis defines a marine-derived fungal natural product p-glycoprotein inhibitory pharmacophore
Dewa, Amila Agampodi, Elbanna, Ahmed H., Khalil, Zeinab G. and Capon, Robert J. (2022). Neochrysosporazines: precursor-directed biosynthesis defines a marine-derived fungal natural product p-glycoprotein inhibitory pharmacophore. Journal of Medicinal Chemistry, 65 (3), 2610-2622. doi: 10.1021/acs.jmedchem.1c01989
2021
Journal Article
Precursor-directed biosynthesis mediated amplification of minor aza phenylpropanoid piperazines in an Australian marine fish-gut-derived fungus, Chrysosporium sp. CMB-F214
Elbanna, Ahmed H., Agampodi Dewa, Amila, Khalil, Zeinab G. and Capon, Robert J. (2021). Precursor-directed biosynthesis mediated amplification of minor aza phenylpropanoid piperazines in an Australian marine fish-gut-derived fungus, Chrysosporium sp. CMB-F214. Marine Drugs, 19 (9) 478, 1-15. doi: 10.3390/md19090478
Supervision
Availability
- Dr Amila Agampodi Dewa is:
- Available for supervision
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