Dr Lauren O'Mullane

Associate Lecturer
Pain Management & Research Institute, Northern Clinical School

Telephone +61 2 9351 6957
Fax +61 2 9351 3868

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Selected publications

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Journals

  • O'Mullane, L., Keast, J., Osborne, P. (2013). Co-Cultures Provide a New Tool to Probe Communication Between Adult Sensory Neurons and Urothelium. The Journal of Urology, 190(2), 737-745. [More Information]
  • Hu, H., O'Mullane, L., Cummins, M., Campbell, C., Hosoda, Y., Poronnik, P., Dinudom, A., Cook, D. (2010). Negative regulation of Ca2+ influx during P2Y2 purinergic receptor activation is mediated by Gβγ-subunits. Cell Calcium, 47(1), 55-64. [More Information]
  • O'Mullane, L., Cook, D., Dinudom, A. (2009). Purinergic regulation of the epithelial Na+ channel. Clinical and Experimental Pharmacology and Physiology, 36(10), 1016-1022. [More Information]
  • Cummins, M., O'Mullane, L., Barden, J., Cook, D., Poronnik, P. (2002). Antisense co-suppression of Galphaq & Galpha11 demonstrates that both isoforms mediate M3-receptor-activated Ca2+ signalling in intact epithelial cells. Pfluegers Archiv: European journal of physiology, 444(5), 644-653. [More Information]

2013

  • O'Mullane, L., Keast, J., Osborne, P. (2013). Co-Cultures Provide a New Tool to Probe Communication Between Adult Sensory Neurons and Urothelium. The Journal of Urology, 190(2), 737-745. [More Information]

2010

  • Hu, H., O'Mullane, L., Cummins, M., Campbell, C., Hosoda, Y., Poronnik, P., Dinudom, A., Cook, D. (2010). Negative regulation of Ca2+ influx during P2Y2 purinergic receptor activation is mediated by Gβγ-subunits. Cell Calcium, 47(1), 55-64. [More Information]

2009

  • O'Mullane, L., Cook, D., Dinudom, A. (2009). Purinergic regulation of the epithelial Na+ channel. Clinical and Experimental Pharmacology and Physiology, 36(10), 1016-1022. [More Information]

2002

  • Cummins, M., O'Mullane, L., Barden, J., Cook, D., Poronnik, P. (2002). Antisense co-suppression of Galphaq & Galpha11 demonstrates that both isoforms mediate M3-receptor-activated Ca2+ signalling in intact epithelial cells. Pfluegers Archiv: European journal of physiology, 444(5), 644-653. [More Information]

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