G
George Paxinos
Researcher at University of New South Wales
Publications - 255
Citations - 99777
George Paxinos is an academic researcher from University of New South Wales. The author has contributed to research in topics: Spinal cord & Receptor. The author has an hindex of 68, co-authored 250 publications receiving 96361 citations. Previous affiliations of George Paxinos include Curtin University & St George's Hospital.
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Autoradiographic localisation of substance P (NK1) receptors in human primary visual cortex
TL;DR: This study utilised autoradiography to examine [125I]-Bolton Hunter substance P (BHSP) binding in postmortem human visual cortex, finding low levels of BHSP binding in the primary visual area, while high levels were observed in layers IVB and V.
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Human brainnetome atlas: a new chapter of brain cartography
TL;DR: The recently released Brainnetome Atlas (Fan et al., 2016) is a step into a new approach to brain cartography: from depicting cerebral anatomy and connections to constructing anatomical scaffolds on which mul-ti-scale, multi-modal information can be organized, integrated, and investigated.
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Using a panel of immunomarkers to define homologies in mammalian brains
TL;DR: An example (mapping the amygdala in the marmoset) is presented which demonstrates the application of this immunomarker panel in defining homologies, particularly in situations where little data on hodology or electrophysiology are available.
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3D imaging of PSD-95 in the mouse brain using the advanced CUBIC method
Huazheng Liang,Huazheng Liang,Huazheng Liang,Hongqin Wang,Shaoshi Wang,Richard Francis,George Paxinos,Xu-Feng Huang +7 more
TL;DR: The majority of brain nuclei have similar distribution pattern to what has been reported from in situ hybridization and immunohistochemical studies in the mouse, but some fiber bundles also showed strong PSD-95 signal, which is different from what was shown in previous studies and need to be confirmed in future studies.
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Odor Enrichment Increases Hippocampal Neuron Numbers in Mouse
Zoltán Rusznák,Gulgun Sengul,George Paxinos,George Paxinos,Woojin S. Kim,Woojin S. Kim,YuHong Fu,YuHong Fu +7 more
TL;DR: It is suggested that exposure to novel odor stimuli promotes hippocampal neurogenesis and support the idea that enriched environments may delay the onset or slow down the progression of neurodegenerative disorders.