Kaur Group
  1. Maiti M., Kikuchi K., Athul K. K., Kaur A., Bhuniya S., β-Galactosidase-activated theranostic for hepatic carcinoma therapy and imaging. Chemical Communications 2022, 58, 6413-6416.
  2. Kaur A., Adair L. D., Ball S. R., New E.J., Sunde M. A fluorescent amyloid sensor for quantitative super-resolution imaging of amyloid fibril assembly.  Angew. Chem. Int. Ed. 2022, 61, e202112832.
  3. Kaur A., New E.J. Mechanistic insights on how to avoid and harness cyanine photoconversion. ACS Central Science 2021 7, 7, 1095–1098
  4. Graziotto M. E., Adair L. D., Kaur A, Vérité P., Ball S. R., Sunde M., Jacquemin D., New E. J. Versatile naphthalimide tetrazines for fluorogenic biorthogonal labelling, RSC Chemical Biology 2021, 2, 1491-1498.
  5. York M. H., Patil, A., Moorthi K. U., Kaur A., Bhowmik, A., Hyde G. J., Gandhi H., Fulcher A., Gaus K., Arumugam S., Rapid whole cell imaging reveals a calcium-APPL1-dynein nexus that regulates cohort trafficking of stimulated EGF receptors. Nature Communications Biology 2021 4, 224.
  6. Kaur A., New E. J., Sunde M. Strategies for the molecular imaging of amyloid and the value of multi-modal approach, ACS Sensors 2020, 5, 8, 2268–2282.
  7. Thejer B. M., Adhikary P. P., Kaur A., Teakel S. L., Oosterum A. V., Seth I., Pajic M., Hannan K. M. et al. PGRMC1 phosphorylation affects cell shape, motility, glycolysis, mitochondrial form and function, and tumor growth. BMC Mol and Cell Biol 2020, 21, 24.
  8. Kaur A., New E. J., Bio-inspired small molecule tools for the imaging of redox biology. Accounts of Chemical Research 2019, 52, 3, 623-632.
  9. Maity B. K., Das A. K., Dey S., Moorthi, U. K., Kaur A., Dey A., Surendran D., Pandit R., Kallianpur M., Chandra B., Chandrakesan M., Arumugam S., Maiti S., Ordered and Disordered Segments of Amyloid-β Drive Sequential Steps of the Toxic Pathway, ACS Chemical Neuroscience 2019, 10, 5, 2498-2509.
  10. Wu Y., Kaur A., Fowler E., Wiedmann M. M., Young R., Galloway W. R. J. D., Olsen L., Sore H. F., Chattopadhyay A., Kwan T. T.-L.., Xu W., Walsh S. J., Andrade P., Janecek M., Arumugam S., Itzhaki L. S., Lau Y. H., Spring D. R., A toolbox of diverse linkers for navigating the cellular efficacy landscape of stapled peptides. ACS Chemical Biology. 2019, 14 ,3, 526-533.
  11. Black H. D., Xu W., Hortle E., Robertson S. I., Britton W. J., Kaur A., New E. J., Witting P. K., Chami B., Oehlers S., The cyclic nitroxide antioxidant 4-methoxy-TEMPO decreases mycobacterial burden in vivo through host and bacterial targets. Free Radical Biology & Medicine 2019, 135, 157-166.
  12. Kaur A., Fluorescent Tools for Imaging Oxidative Stress in Biology. Springer Int. Publishing, 2018. DOI: 10.1007/978-3-319-73405-7.
  13. Muellner M., Yang K., Kaur A., New E. J., Aspect-ratio-dependent interaction of molecular polymer brushes and multicellular tumour spheroids. Polymer Chemistry, 2018, 9, 3461-3465.
  14. Chong K. L., Chalmers B. A., Cullen J. K., Kaur A., Kolanowski J. K., Morrow B. J., Fairfull-Smith K., Lavin M. J., Barnett N. L., New E. J., Murphy M. P., Bottle S., Pro-fluorescent mitochondria-targeted real-time responsive redox probes synthesised from carboxy isoindoline nitroxides: Sensitive probes of mitochondrial redox status in cells. Free Radical Biology and Medicine, 2018, 128, 97-110.
  15. Gomes S., Vichery C., Descamps S., Martinez H., Kaur A., Jacobs A., Nedelec J-M. and Renaudin G., Cu-doping of calcium phosphate bioceramics: From mechanism to the control of cytotoxicity. Acta Biomaterialia, 2018, 65, 462-474.
  16. O’Neill E. S., Kaur A., Bishop D. P., Shishmarev D., Kuchel P. W., Grieve S. M., Figtree G. A., Renfrew A. K., Bonnitcha P. D., New E. J., Hypoxia-Responsive Cobalt Complexes in Tumor Spheroids: Laser Ablation Inductively Coupled Plasma Mass Spectrometry and Magnetic Resonance Imaging Studies. Inorganic Chemistry, 2017, 56 (16), 9860-9868.
  17. Wu A., Kolanowski J. L., Boumelhem B. B., Yang K., Lee R., Kaur A., Fraser S. T., New E. J., Rendina L. M., A Carborane-Containing Fluorophore as a Stain of Cellular Lipid Droplets. Chemistry an Asian Journal. 2017, 12, 1704.
  18. Arumugam S., Kaur A., The lipids of the early endosomes: Making multi-modality work. ChemBioChem. 2017, 18 (12), 1053-1060.
  19. Gomes S., Kaur A., Grenèche J-M., Nedelec J-M., Renaudin G., Atomic scale modeling of iron-doped biphasic calcium phosphate bioceramics. Acta Biomaterialia. 2017, 50, 78-88.
  20. Kaur A., Kolanowski J. L., New E. J., Reversible fluorescent probes of biological redox state. Angewandte Chemie, 2016, 55(5), 1602-1613.
  21. Kaur A., Jankowska K., Pilgrim C., Fraser S. T., New E. J., Studies of hematopoietic cell differentiation with a ratiometric and reversible sensor of mitochondrial oxidative capacity. Antioxidants and redox signaling, 2016, 24(13), 667-679.
  22. Kolanowski J. L., Kaur A., New E. J., Selective and reversible approaches towards imaging redox signaling using small molecule probes. Antioxidants and redox signaling, 2016, 24(13) 713-30.
  23. Shen C., Kolanowski J. L., Tran C. M.-N., Kaur A., Akerfeldt M. C., Hambley T. W., New E. J., A ratiometric fluorescent sensor for mitochondrial copper pool. Metallomics, 2016, 8, 915-919.
  24. Kaur A., Lim Z., Yang K., New E.J., Fluorescent sensors for biological metal ions. In: Glass T (Ed.). Comprehensive Supramolecular Chemistry II, Elsevier, Amsterdam, Netherlands, 2016.
  25. Kaur A., Haghighatbin M. A., Hogan C. F., New E. J., A FRET-based ratiometric redox probe for detecting oxidative stress by confocal microscopy, FLIM and flow cytometry. Chemical Communications, 2015, 51, 10510-10513.
  26. Kaur A., Brigden K. W. L., Cashman T. F., Fraser S. T., New E. J., Mitochondrially targeted redox probe reveals the variations in oxidative capacity of the haematopoietic cells. Organic & Biomolecular Chemistry, 2015, 13, 6686-6689
  27. Yeow J., Kaur A., Anscomb M.D., New E. J., A novel flavin derivative reveals the impact of glucose on oxidative stress in adipocytes. Chemical Communications, 2014, 50, 8181-8184.
  28. Gomes S., Kaur A., Grenèche J-M., Nedelec J-M., Renaudin G., X-ray absorption spectroscopy shining (synchrotron) light onto the insertion of Zn2+ in calcium phosphate ceramics and its influence on their behavior under biological conditions. Journal of Materials Chemistry B, 2014, 2 (5), 536-545.