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2017 Conference Publication Exercise-induced neurogenesis improves recovery in learning after an endothelin-1-induced hippocampal stroke in adult mouseCodd, L., Blackmore, D., Vukovic, J. and Bartlett, P. (2017). Exercise-induced neurogenesis improves recovery in learning after an endothelin-1-induced hippocampal stroke in adult mouse. 27th Annual Scientific Meeting of the Stroke Society of Australasia, Queenstown, New Zealand, 23 – 25 August 2017. London, United Kingdom: Sage Publications. doi: 10.1177/1747493017720548 |
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2016 Conference Publication Exercise improves learning and increases neurogenesis after an endothelin-1-induced hippocampal stroke in adult mouseCodd, L., Blackmore, Daniel, Vukovic, Jana and Bartlett, Perry F. (2016). Exercise improves learning and increases neurogenesis after an endothelin-1-induced hippocampal stroke in adult mouse. Asia Pacific Stroke Conference, Brisbane Convention and Exhibition Centre, 14-17 July 2016. BASEL: Karger. doi: 10.1159/000447732 |
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2015 Conference Publication Exercise improves learning and increases neurogenesis after an endothelin-1-induced hippocampal stroke in adult mouseCodd, L. N., Vukovic, J., Blackmore, D. G. and Bartlett, P. F. (2015). Exercise improves learning and increases neurogenesis after an endothelin-1-induced hippocampal stroke in adult mouse. Unknown, Unknown, Unknown. London, United Kingdom: Sage Publications. |
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2015 Conference Publication Learning and neurogenesis are improved with exercise after an endothelin-1-induced hippocampal stroke in adult mouseCodd, L., Vukovic, J., Blackmore, D. and Bartlett, P. (2015). Learning and neurogenesis are improved with exercise after an endothelin-1-induced hippocampal stroke in adult mouse. 25th Biennial Meeting of the International-Society-for-Neurochemistry Jointly with the 13th Meeting of the Asian-Pacific-Society-for-Neurochemistry in Conjunction with the 35th Meeting of the Australasian-Neuroscience-Society, Cairns Australia, Aug 23-27, 2015. West Sussex United Kingdom: Wiley-Blackwell. |
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2014 Journal Article The Netrin/RGM receptor, neogenin, controls adult neurogenesis by promoting neuroblast migration and cell cycle exitO'Leary, Conor J., Bradford, DanaKai, Chen, Min, White, Amanda, Blackmore, Daniel G. and Cooper, Helen M. (2014). The Netrin/RGM receptor, neogenin, controls adult neurogenesis by promoting neuroblast migration and cell cycle exit. Stem Cells, 33 (2), 503-514. doi: 10.1002/stem.1861 |
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2013 Book Chapter Distribution of neural precursor cells in the adult mouse brainBlackmore, Daniel G. and Rietze, Rodney L. (2013). Distribution of neural precursor cells in the adult mouse brain. Neural progenitor cells: methods and protocols. (pp. 183-194) edited by Brent A. Reynolds and Loic P. Deleyrolle. New York, NY, United States: Humana Press. doi: 10.1007/978-1-62703-574-3_16 |
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2012 Journal Article GH mediates exercise-dependent activation of SVZ neural precursor cells in aged miceBlackmore, Daniel G., Vukovic, Jana, Waters, Michael J. and Bartlett, Perry F. (2012). GH mediates exercise-dependent activation of SVZ neural precursor cells in aged mice. PLoS One, 7 (11) e49912, e49912.1-e49912.7. doi: 10.1371/journal.pone.0049912 |
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2012 Journal Article Prolactin stimulates precursor cells in the adult mouse hippocampusWalker, Tara L., Vukovic, Jana, Koudijs, Margaretha M., Blackmore, Daniel G., Mackay, Eirinn W., Sykes, Alex M., Overall, Rupert W., Hamlin, Adam S. and Bartlett, Perry F. (2012). Prolactin stimulates precursor cells in the adult mouse hippocampus. PLoS One, 7 (9 Article No. e44371) e44371, 41-51. doi: 10.1371/journal.pone.0044371 |
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2012 Journal Article Microglia modulate hippocampal neural precursor activity in response to exercise and agingVukovic, Jana, Colditz, Michael J., Blackmore, Daniel G., Ruitenberg, Marc J. and Bartlett, Perry F. (2012). Microglia modulate hippocampal neural precursor activity in response to exercise and aging. Journal of Neuroscience, 32 (19), 6435-6443. doi: 10.1523/JNEUROSCI.5925-11.2012 |
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2012 Journal Article Growth hormone responsive neural precursor cells reside within the adult mammalian brainBlackmore, Daniel G., Reynolds, Brent A., Golmohammadi, Mohammad G., Large, Beatrice, Aguilar, Roberto M., Haro, Luis, Waters, Michael J. and Rietze, Rodney L. (2012). Growth hormone responsive neural precursor cells reside within the adult mammalian brain. Scientific Reports, 2 (1) 250, 250.1-250.10. doi: 10.1038/srep00250 |
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2011 Journal Article Growth hormone (GH), brain development and neural stem cellsWaters, M. J. and Blackmore, D. G. (2011). Growth hormone (GH), brain development and neural stem cells. Pediatric Endocrinology Reviews, 9 (2), 549-553. |
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2011 Journal Article Store-operated calcium entry remains fully functional in aged mouse skeletal muscle despite a decline in STIM1 protein expressionEdwards, Joshua N., Blackmore, Daniel G., Gilbert, Daniel F., Murphy, Robyn M. and Launikonis, Bradley S. (2011). Store-operated calcium entry remains fully functional in aged mouse skeletal muscle despite a decline in STIM1 protein expression. Aging Cell, 10 (4), 675-685. doi: 10.1111/j.1474-9726.2011.00706.x |
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2011 Journal Article Activation of neural precursors in the adult neurogenic nichesVukovic, Jana, Blackmore, Daniel, Jhaveri, Dhanisha and Bartlett, Perry F. (2011). Activation of neural precursors in the adult neurogenic niches. Neurochemistry International, 59 (3), 341-346. doi: 10.1016/j.neuint.2011.04.003 |
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2010 Book Chapter Detection and Identification of Tissue Stem Cells: Tracking an Elusive PreyBlackmore, Daniel G. and Rietze, Rodney L. (2010). Detection and Identification of Tissue Stem Cells: Tracking an Elusive Prey. Heart Development and Regeneration. (pp. 857-875) edited by Nadia Rosentha and Richard P. Harvey. Amsterdam, The Netherlands: Elsevier Inc.. doi: 10.1016/B978-0-12-381332-9.00041-4 |
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2009 Journal Article Exercise increases neural stem cell number in a growth hormone-dependent manner, augmenting the regenerative response in aged miceBlackmore, Daniel G., Golmohammadi, Mohammed G., Large, Beatrice, Waters, Michael J. and Rietze, Rodney L. (2009). Exercise increases neural stem cell number in a growth hormone-dependent manner, augmenting the regenerative response in aged mice. Stem Cells, 27 (8), 2044-2052. doi: 10.1002/stem.120 |
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2008 Journal Article Comparative analysis of the frequency and distribution of stem and progenitor cells in the adult mouse brainGolmohammadi, Mohammed G., Large, Beatrice, Blackmore, Daniel G, Azari, Hassan, Esfandiary, Ebrahim, Paxinos, Geroge, Franklin, Keith, B., Reynolds, Brent A. and Rietze, Rodney L. (2008). Comparative analysis of the frequency and distribution of stem and progenitor cells in the adult mouse brain. Stem Cells, 26 (4), 979-987. doi: 10.1634/stemcells.2007-0919 |
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2005 Journal Article Increased capacity for sucrose uptake leads to earlier onset of protein accumulation in developing pea seedsRosche, Elke G., Blackmore, Daniel, Offler, Christina E. and Patrick, John W. (2005). Increased capacity for sucrose uptake leads to earlier onset of protein accumulation in developing pea seeds. Functional Plant Biology, 32 (11), 997-1007. doi: 10.1071/FP05127 |
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2004 Journal Article Biosynthesis of the Canine Zona Pellucida requires the integrated participation of both oocytes and granulosa cellsBlackmore, Daniel G., Baillie, Lucan R., Holt, Janet E., Dierkx, Lynda, Aitken, R. John and McLaughlin, Eileen A. (2004). Biosynthesis of the Canine Zona Pellucida requires the integrated participation of both oocytes and granulosa cells. Biology of Reproduction, 71 (2), 661-668. doi: 10.1095/biolreprod.104.028779 |
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2002 Journal Article Seed-specific overexpression of a potato sucrose transporter increases sucrose uptake and growth rates of developing pea cotyledonsRosche, Elke, Blackmore, Daniel, Tegeder, Mechthild, Richardson, Terese, Schroeder, Hart, Higgins, Thomas J. V., Frommer, Wolf B., Offler, Christina E. and Patrick, John W. (2002). Seed-specific overexpression of a potato sucrose transporter increases sucrose uptake and growth rates of developing pea cotyledons. The Plant Journal, 30 (2), 165-175. doi: 10.1046/j.1365-313X.2002.01282.x |
