Torch

Dr Daniel Stratton

Lecturer / Director of Studies for Forensic Science / Module Leader for Molecular Cell Biology

Faculty and Department

  • Faculty of Health Sciences
  • School of Life Sciences

Qualifications

  • PhD

Journal Article

Inhibition of microvesiculation sensitizes prostate cancer cells to chemotherapy and reduces docetaxel dose required to limit tumor growth in vivo

Jorfi, S., Ansa-Addo, E. A., Kholia, S., Stratton, D., Valley, S., Lange, S., & Inal, J. (2015). Inhibition of microvesiculation sensitizes prostate cancer cells to chemotherapy and reduces docetaxel dose required to limit tumor growth in vivo. Scientific reports, 5(1), doi:10.1038/srep13006

Lifelong exercise, but not short-term high-intensity interval training, increases GDF11, a marker of successful aging: a preliminary investigation

Elliott, B. T., Herbert, P., Sculthorpe, N., Grace, F. M., Stratton, D., & Hayes, L. D. (2017). Lifelong exercise, but not short-term high-intensity interval training, increases GDF11, a marker of successful aging: a preliminary investigation. Physiological Reports, 5(13), e13343. doi:10.14814/phy2.13343

Microvesicles released constitutively from prostate cancer cells differ biochemically and functionally to stimulated microvesicles released through sublytic C5b-9

Stratton, D., Moore, C., Antwi-Baffour, S., Lange, S., & Inal, J. (2015). Microvesicles released constitutively from prostate cancer cells differ biochemically and functionally to stimulated microvesicles released through sublytic C5b-9. Biochemical and biophysical research communications, 460(3), 589-595. doi:10.1016/j.bbrc.2015.03.074

Prostate cancer cells stimulated by calcium-mediated activation of protein kinase C undergo a refractory period before re-releasing calcium-bearing microvesicles

Stratton, D., Moore, C., Zheng, L., Lange, S., & Inal, J. (2015). Prostate cancer cells stimulated by calcium-mediated activation of protein kinase C undergo a refractory period before re-releasing calcium-bearing microvesicles. Biochemical and biophysical research communications, 460(3), 511-517. doi:10.1016/j.bbrc.2015.03.061

Sigma-1 receptors modulate neonatal Nav1.5 ion channels in breast cancer cell lines

Aydar, E., Stratton, D., Fraser, S. P., Djamgoz, M. B., & Palmer, C. (2016). Sigma-1 receptors modulate neonatal Nav1.5 ion channels in breast cancer cell lines. European Biophysics Journal, 45(7), 671-683. doi:10.1007/s00249-016-1135-0

Postgraduate supervision

Dr Stratton would welcome enquiries and applications in extracellular vesicles, immunology and tissue regeneration. Current PhD Supervisions - Marjan Jeddi - Anfal Sariff