Hidalgo, Alicia - University of Birmingham

个人简介

I grew up in Madrid, Spain, and carried out my first degree in Biological Sciences at the Universidad Complutense in Madrid, graduating in 1986. I obtained my PhD (DPhil) from the University of Oxford (Madgalen College) in 1990, on Drosophila developmental genetics and supervised by Prof. Phil W. Ingham. I subsequently (1990-1992) obtained a post-doctoral fellowship from the Spanish Ministry of Science and Education to do a post-doctoral period with Prof Antonio García-Bellido, at the Universidad Autónoma de Madrid, working on the control of growth and form in Drosophila development. I returned to UK with a Marie Curie Human Capital and Mobility Fellowship to do a second post-doc with Prof Andrea H. Brand at the Wellcome/CR-UK Institute, University of Cambridge (1993-1997). After this, I was awarded a Wellcome Trust Research Career Development Fellowship to establish my independent research group at the Department of Genetics, University of Cambridge (1997-2002). Here, I established my line of research into neuron-glia interactions during nervous system development. In 2001 I received an EMBO Young Investigator Award for my achievements as a young group leader. In 2002, I moved to the School of Biosciences, University of Birmingham, appointed Senior Lecturer, and where I consolidated my research into nervous system development using Drosophila.

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Losada-Perez, Harrison, Hidalgo (2016) Molecular mechanism of central nervous system repair by the Drosophila NG2 homologue kon-tiki. Journal of Cell Biology. doi: 10.1083/jcb.201603054 http://jcb.rupress.org/content/early/2016/08/16/jcb.201603054.full Kato K, KonnoD, Berry M, MatsuzakiF, Logan A, Hidalgo (2015) Prox1 inhibits proliferation and is required for differentiation of the oligodendrocyte cell lineage in the mouse. PLoS One 10(12): e0145334, do: 10.1371/journal.pone.0145334 http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0145334 Sutcliffe B, Forero MG, Zhu B, Robinson I and Hidalgo A (2013) Neuron-type specific functions of DNT1, DNT2 and Spz at the Drosophila neuromuscular junction. PLoS One, 2013 Oct 4;8(10):e75902. doi: 10.1371/journal.pone.0075902 McIlroy G, Foldi I, Aurikko J, Wentzell JS, Lim MA, Fenton JC, Gay NJ and Hidalgo A (2013) Toll-6 and Toll-7 function as neurotorphin receptors in the Drosophila melanogaster CNS. Nature Neuroscience 16, 1248-1256. doi: 10.1038/nn.3474. Recommended by Faculty of 1000 http://f1000.com/prime/718049779?bd=1&ui=21597 Kato, K., Hidalgo, A. An Injury Paradigm to Investigate Central Nervous System Repair in Drosophila.(2013) J. Vis. Exp. (73), e50306, doi:10.3791/50306. http://www.jove.com/video/50306/an-injury-paradigm-to-investigate-central-nervous-system-repair Forero, Kato and Hidalgo (2012) Automatic cell counting in vivo in the larval nervous system of Drosophila. J Microscopy. 2012 May;246(2):202-12. doi: 10.1111/j.1365-2818.2012.03608 Kato K, Forero MG, Fenton JC and Hidalgo A (2011) The glial regenerative response to central nervous system injury is enabled by Pros-Notch and Pros-NFkB feedback. PLoS Biology 9: e1001133 Forero MG and Hidalgo A (2011) Image processing methods for automatic cell counting in vivo or in situ using 3D confocal microscopy. In "Advanced Biomedical Engineering: Ed. Gargiulo GD and McEwan A. Intech Open Access pages 183-204. Hidalgo, Kato, Sutcliffe, McIlroy, Bishop and AlAhmed (2010) Trophic neuron-glia interactions and cell number adjustments in the fruit-fly. Glia DOI: 10.1002/glia.21092. Forero, Learte, Cartwright and Hidalgo (2010) DeadEasy MitoGlia: automatic counting of mitotic cells and glia in the central nervous system of Drosophila. PLoS One 5, e10557 Forero, Pennack, and Hidalgo (2010) DeadEasy neurons: Automatic counting of HB9 neuronal nuclei in Drosophila. Cytometry Part A 77A, 371-378 Forero, Pennack, Learte and Hidalgo (2009) DeadEasy caspase: automatic counting of apoptotic cells in Drosophila. PLoS One 4, e5441. Zhu, Pennack, McQuilton, Forero, Mizuguchi, Gu, Fenton and Hidalgo (2008) Drosophila neurotrophins reveal a common mechanism of nervous system formation. PLoS Biology 6, e284. See also pubcast at: www.scivee.com/node/8389 Recommended by Faculty of 1000: http://f1000.com/prime/1158489 Learte, Forero and Hidalgo (2008) Gliatrophic and gliatropic functions of PVR signalling during axon guidance. Glia 56, 164-176 Griffiths, Benito-Sipos, Fenton, Torroja and Hidalgo (2007) Two distinct mechanisms segregate Prospero in the longitudinal glia underlying the timing of interactions with axons. Neuron-Glia Biology, 3, 75-88 Hidalgo, Learte, McQuilton, Pennack and Zhu (2006) Gliatrophic and neurotrophic contexts in Drosophila. Brain, Behaviour and Evolution 68, 173-180 Griffiths & Hidalgo (2004) Prospero maintains the proliferative potential of glial precursor cells enabling them to respond to neurons in the CNS. The EMBO J 23, 2440-2450 Kinrade & Hidalgo (2004) Local neuron-glia interactions change the response of axons to the Robo code. Neuron Glia Biology 1, 101-112. Hidalgo & Griffiths (2004) Coupling glial numbers to axonal patterns. Cell Cycle 3, 1118-1120. Hidalgo (2002) Interactive nervous system development: control of cell survival in Drosophila. Trends in Neurosciences 25, 365-370 Hidalgo, Kinrade, and Georgiou (2001) The Drosophila neuregulin Vein maintains glial survival during axon guidance in the CNS. Developmental Cell 1, 679-690