Browsing by Author O'Mullane, Lauren

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Issue DateTitleAuthor(s)Citation
2002Antisense co-suppression of Galphaq & Galpha11 demonstrates that both isoforms mediate M3-receptor-activated Ca2+ signalling in intact epithelial cellsBarden, Julian; Cook, David; Cummins, Michelle; O'Mullane, Lauren; Poronnik, Philip; School of Medical Sciences: Anatomy & Histology; School of Medical Sciences: Physiology; School of Public Health: NH&MRC Clinical Trials Centre; School of Medical Sciences: Physiology; Medicine Faculty OfficeAntisense 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, vol.444, 5,pp 644-653
2013Co-Cultures Provide a New Tool to Probe Communication Between Adult Sensory Neurons and UrotheliumKeast, Janet Ruth; O'Mullane, Lauren; Osborne, Peregrine; Northern Clinical School: Kolling Institute; School of Medical Sciences: Physiology; Northern Clinical School: Kolling InstituteCo-Cultures Provide a New Tool to Probe Communication Between Adult Sensory Neurons and Urothelium, The Journal of Urology, vol.190, 2, 2013,pp 737-745
2010Negative regulation of Ca2+ influx during P2Y2 purinergic receptor activation is mediated by Gβγ-subunitsCampbell, Craig; Cook, David; Cummins, Michelle; Dinudom, Anuwat; Hosoda, Yutaka; Hu, Haibi; O'Mullane, Lauren; Poronnik, Philip; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Public Health: NH&MRC Clinical Trials Centre; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; Biological Sciences; School of Medical Sciences: PhysiologyNegative regulation of Ca2+ influx during P2Y2 purinergic receptor activation is mediated by Gβγ-subunits, Cell Calcium, vol.47, 1, 2010,pp 55-64
2009Purinergic regulation of the epithelial Na+ channelCook, David; Dinudom, Anuwat; O'Mullane, Lauren; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: PhysiologyPurinergic regulation of the epithelial Na+ channel, Clinical and Experimental Pharmacology & Physiology, vol.36, 10,pp 1016-1022