In 2005 she returned to Australia, taking up a position at the University of Queensland, where she was appointed Associate Professor in the QBI, and the School of Biomedical Sciences. She was named after a missionary, Ann Judson by her devout parents. She is Past President of the Australasian Neuroscience Society and Co-Chair of the Australian Brain Alliance. Professor Richards co-founded the International Research Consortium for the Corpus Callosum and Cerebral Connectivity (IRC5), bringing together clinicians and scientists from Australia, USA, France and Brazil with the purpose of identifying the causes of developmental brain disorders and how best to provide support and care for affected individuals and their families. Investigating early formation of the cerebral cortex by in utero electroporation: Methods and protocols, Cortical architecture, midline guidance, and tractography of 3D white matter tracts, Emx and Nfi Genes Regulate Cortical Development and Axon Guidance in the Telencephalon, Regulation of the early development of the nervous system by growth factors, Long-distance aberrant heterotopic connectivity in a mouse strain with a high incidence of callosal anomalies, Altered structural connectivity networks in a mouse model of complete and partial dysgenesis of the corpus callosum, Pathogenic DDX3X mutations impair RNA metabolism and neurogenesis during fetal cortical development, Understanding the Uptake of Nanomedicines at Different Stages of Brain Cancer Using a Modular Nanocarrier Platform and Precision Bispecific Antibodies, Differential timing of a conserved transcriptional network underlies divergent cortical projection routes across mammalian brain evolution, Erratum: A neuroethics framework for the Australian Brain Initiative (Neuron (2019) 101(3) (365–369), (S0896627319300054), (10.1016/j.neuron.2019.01.004)), Is glass ceiling present? In acknowledgement of her standing in the scientific community Professor Richard’s appointments are numerous and include: Professor Richards has received a number of awards and fellowships including the Charles Judson Herrick Award from the American Association of Anatomists in 2004 and the Nina Kondelos Award from the Australasian Neuroscience Society in 2010. 114 pearl street port chester ny 10573 | tel: 212-382-2257 | email:[email protected]@lindarichards.com See the complete profile on LinkedIn and discover Linda’s connections and jobs at similar companies. Professor Linda Richards has been bestowed with an Order of Australia (AO) for her service to medical research and education in the field of developmental neurobiology. Linda Richards (July 27, 1841 – April 16, 1930) was the first professionally trained American nurse. Linda Richards (July 27, 1841 – April 16, 1930) was … Linda Richards is generally recognized as the first training nurse in the United States. View the profiles of people named Linda Richards. Podcast: will nerve regeneration treat spinal cord injury? Professor Linda Richards. Linda J. Richards AO, PhD, FAA, FAHMS is a Professor of Neuroscience and Deputy Director (Research) at the Queensland Brain Institute at The University of Queensland, Brisbane, Australia. Professor Linda Richards is a leading developmental neurobiologist whose discoveries have defined the fundamental mechanisms regulating the wiring of neuronal connections between the hemispheres of the brain. She was subsequently promoted to Professor in 2010. See the complete profile on LinkedIn and discover Linda’s connections and jobs at similar companies. Professor Richards is a recognised world expert on the formation of the corpus callosum, the bundle of nerves that connects the two hemispheres of the brain, and how disruption in brain formation causes human developmental brain disorders and brain cancer. Her laboratory team strives to understand how the brain forms during development and how these processes are disrupted causing human developmental brain disorders and brain cancer. Professor Richards was named an Officer in the Order of Australia for her “distinguished service to medical research and education in the field of developmental neurobiology, and to science and community engagement in science”. The content is solely the responsibility of the authors and … But her entire career was marked by pioneering work. ... L.R.F. Professor Richards is a leading expert on the formation of the corpus callosum and is scientific advisor and patron for AusDoCC. by an Australian Research Council (ARC) Discovery Early Career Researcher Award 160101394 and L.J.R. Linda J. Richards, Queensland Brain Institute, The University of Queensland, Brisbane, QLD 4072, Australia. Linda Richards Womens Dress Pants Size 16 Brown Wool Front Crease New $268 C $ 109.93 Previous Price C $370.43 Linda Richards Womens Raccon Trim Fringe Plaid Shawl Wrap Wool Cashmere 76" More than 30,000 high school students have participated in the challenge and students from Australia have won the international brain bee competition three times and placed in every event since the inaugural Australian competition in 2006. “Having trailblazers like Emeritus Professor Smith and Professor Richards in leadership roles at our institution sets an example to other young women who wish to pursue STEMM pathways.”. by a NHMRC Principal Research Fellowship 1005751. Most Australian States and Territories publish indexes to 'historic' births, deaths and marriages registered in their respective jurisdictions. Linda has 7 jobs listed on their profile. Her childhood was spent moving around from New … Richards began her postdoctoral training at the Salk Institute of Biological Studies, in the laboratory of Professor Dennis O'Leary. Slit-2 expression by the glial wedge, a new midline glial population, guides cortical axons across the corpus callosum. View Linda Richards’ profile on LinkedIn, the world’s largest professional community. Over 30,000 high school students have participated in the challenge and students from Australia have won the international brain bee competition three times and placed in every event since 2006. Towards the equal opportunity of women in child neurology, Callosal agenesis and congenital mirror movements: outcomes associated with DCC mutations, Transcription factors NFIA and NFIB induce cellular differentiation in high-grade astrocytoma, Variants in nuclear factor I genes influence growth and development, YAP1 subgroup supratentorial ependymoma requires TEAD and nuclear factor I-mediated transcriptional programmes for tumorigenesis, A neuroethics framework for the Australian Brain Initiative, Shared and differential features of Robo3 expression pattern in amniotes, Transcriptional control of long-range cortical projections, NFIB haploinsufficiency is associated with intellectual disability and macrocephaly, Increased cognitive complexity reveals abnormal brain network activity in individuals with corpus callosum dysgenesis, A pan-mammalian map of interhemispheric brain connections predates the evolution of the corpus callosum, Teaching NeuroImages: imaging features of DCC-mediated mirror movements and isolated agenesis of the corpus callosum, Erratum: Correction: Transcriptional regulation of intermediate progenitor cell generation during hippocampal development (doi: 10.1242/dev.140681) (Development (Cambridge, England) (2016) 143 24 (4620-4630) PII: dev169631), DCC is required for the development of nociceptive topognosis in mice and humans, Pharmacogenetic stimulation of neuronal activity increases myelination in an axon-specific manner, The convergent roles of the nuclear factor I transcription factors in development and cancer, Combined allelic dosage of Nfia and Nfib regulates cortical development, DCC mutation update: Congenital mirror movements, isolated agenesis of the corpus callosum, and developmental split brain syndrome, Transcriptional regulation of Nfix by NFIB drives astrocytic maturation within the developing spinal cord, Multiple events of gene manipulation via in pouch electroporation in a marsupial model of mammalian forebrain development, Development of body, head and brain features in the Australian fat-tailed dunnart (Sminthopsis crassicaudata; Marsupialia: Dasyuridae); A postnatal model of forebrain formation, Astroglial-mediated remodeling of the interhemispheric midline during telencephalic development is exclusive to eutherian mammals, Reducing the burden of neurological disease and mental illness, Differential neuronal and glial expression of nuclear factor I proteins in the cerebral cortex of adult mice, The anatomy, organisation and development of contralateral callosal projections of the mouse somatosensory cortex, Mutations in DCC cause isolated agenesis of the corpus callosum with incomplete penetrance, Transcriptional regulation of intermediate progenitor cell generation during hippocampal development, Astroglial-mediated remodeling of the interhemispheric midline is required for the formation of the corpus callosum, Altered structural connectome in adolescent socially isolated mice, Reply: ARID 1B mutations are the major genetic cause of corpus callosum anomalies in patients with intellectual disability, Nuclear factor one B (NFIB) encodes a subtype-specific tumour suppressor in glioblastoma, NFIX regulates proliferation and migration within the murine SVZ neurogenic niche, MicroRNA-153 regulates the acquisition of gliogenic competence by neural stem cells, EMX1 regulates NRP1-mediated wiring of the mouse anterior cingulate cortex, Formation of functional areas in the cerebral cortex is disrupted in a mouse model of autism spectrum disorder, PAX6 does not regulate Nfia and Nfib expression during neocortical development, Contralateral targeting of the corpus callosum in normal and pathological brain function, Mapk/Erk activation in an animal model of social deficits shows a possible link to autism, Subdomain-mediated axon-axon signaling and chemoattraction cooperate to regulate afferent innervation of the lateral habenula, Evolution and development of interhemispheric connections in the vertebrate forebrain, Balanced interhemispheric cortical activity is required for correct targeting of the corpus callosum, Expression of Nuclear Factor One A and -B in the Olfactory Bulb (vol 520, pg 3135, 2012), Unc5C and DCC act downstream of Ctip2 and Satb2 and contribute to corpus callosum formation, NFIB-mediated repression of the epigenetic factor Ezh2 regulates cortical development, Diffusion MR microscopy of cortical development in the mouse embryo, Wnt5a induces Ryk-dependent and -independent effects on callosal axon and dendrite growth, Clinical, genetic and imaging findings identify new causes for corpus callosum development syndromes, Netrin-DCC signaling regulates corpus callosum formation through attraction of pioneering axons and by modulating Slit2-mediated repulsion, NFIX regulates neural progenitor cell differentiation during hippocampal morphogenesis, X-linked microtubule-associated protein, Mid1, regulates axon development, Coupling diffusion imaging with histological and gene expression analysis to examine the dynamics of cortical areas across the fetal period of human brain development, Axon position within the corpus callosum determines contralateral cortical projection, Heterozygosity for Nuclear Factor One X Affects Hippocampal-Dependent Behaviour in Mice, Loss of Usp9x disrupts cortical architecture, hippocampal development and TGFβ-mediated axonogenesis, Expression of nuclear factor one A and -B in the olfactory bulb, Multiple Slits regulate the development of midline glial populations and the corpus callosum, Nuclear factor I genes regulate neuronal migration, Loss of neuronal potassium/chloride cotransporter 3 (KCC3) is responsible for the degenerative phenotype in a conditional mouse model of hereditary motor and sensory neuropathy associated with agenesis of the corpus callosum, Nuclear factor one X regulates the development of multiple cellular populations in the postnatal cerebellum, Transcription factor Lhx2 is necessary and sufficient to suppress astrogliogenesis and promote neurogenesis in the developing hippocampus, Fgfr3 regulates development of the caudal telencephalon, Cyclic nucleotide-dependent switching of mammalian axon guidance depends on gradient steepness, An MRI-based atlas and database of the developing mouse brain, Molecular regulation of the developing commissural plate, NFIA controls telencephalic progenitor cell differentiation through repression of the Notch effector Hes1, Comparative mouse brain tractography of diffusion magnetic resonance imaging, Wiring the brain: The biology of neuronal guidance, Multiple non-cell-autonomous defects underlie neocortical callosal dysgenesis in Nfib-deficient mice, Understanding the mechanisms of callosal development through the use of transgenic mouse models, Neuropilin 1-Sema signaling regulates crossing of cingulate pioneering axons during development of the corpus callosum, A Bayesian model predicts the response of axons to molecular gradients, Why schizophrenia epidemiology needs neurobiology - And vice versa, Anatomical characterization of human fetal brain development with diffusion tensor magnetic resonance imaging, Absence of the Transcription Factor Nfib Delays the Formation of the Basilar Pontine and Other Mossy Fiber Nuclei, Nuclear Factor One Transcription Factors in CNS Development, Specific glial populations regulate hippocampal morphogenesis, The transcription factor Nfix is essential for normal brain development, Robos are required for the correct targeting of retinal ganglion cell axons in the visual pathway of the brain, Nuclear Factor I Gene Expression in the Developing Forebrain, Emx and Nfi genes regulate cortical development and axon guidance in the telencephalon, Agenesis of the corpus callosum: genetic, developmental and functional aspects of connectivity, Commissure formation in the mammalian forebrain, Diffusion tensor magnetic resonance imaging and tract-tracing analysis of probst bundle structure in Netrin1- and DCC-deficient mice, White and gray matter development in human fetal, newborn and pediatric brains, Identification of candidate genes at the corticoseptal boundary during development, Robo1 regulates the development of major axon tracts and interneuron migration in the forebrain, Imaging, anatomical, and molecular analysis of callosal formation in the developing human fetal brain, Mapping postnatal mouse brain development with diffusion tensor microimaging, The transcription factor gene Nfib is essential for both lung maturation and brain development, Magnetic resonance diffusion tensor microimaging reveals a role for Bcl-x in brain development and homeostasis, Mechanisms of axon guidance in the developing nervous system, A new chemotaxis assay shows the extreme sensitivity of axons to molecular gradients (vol 7, pg 678, 2004), A new chemotaxis assay shows the extreme sensitivity of axons to molecular gradients, Mechanisms regulating the development of the corpus callosum and its agenesis in mouse and human, Neuropilin-1 conveys semaphorin and VEGF signaling during neural and cardiovascular development, Cloning and cortical expression of rat Emx2 and adenovirus-mediated overexpression to assess its regulation of area-specific targeting of thalamocortical axons, Slit2 guides both precrossing and postcrossing callosal axons at the midline in vivo, The glial sling is a migratory population of developing neurons, Development of midline glial populations at the corticoseptal boundary, Abnormal development of forebrain midline glia and commissural projections in Nfia knock-out mice, Three-dimensional anatomical characterization of the developing mouse brain by diffusion tensor microimaging, Surrounded by slit - How forebrain commissural axons can be led astray, Axonal pathfinding mechanisms at the cortical midline and in the development of the corpus callosum, A role for cingulate pioneering axons in the development of the corpus callosum, Cortical axon guidance by the glial wedge during the development of the corpus callosum, Development of the perforating pathway: An ipsilaterally projecting pathway between the medial septum/diagonal band of broca and the cingulate cortex that intersects the corpus callosum, Adenoviral vector-mediated rescue of the OMP-null phenotype in vivo, The spatial and temporal expression patterns of netrin receptors, DCC and neogenin, in the developing mouse retina, Expression of the netrin-1 receptor, deleted in colorectal cancer (DCC), is largely confined to projecting neurons in the developing forebrain, Retinotectal maps: molecules, models and misplaced data, Retinal axon guidance by region-specific cues in diencephalon, Directed growth of early cortical axons is influenced by a chemoattractant released from an intermediate target, Labeling neural cells using adenoviral gene transfer of membrane-targeted GFP, Leukaemia inhibitory factor or related factors promote the differentiation of neuronal and astrocytic precursors within the developing murine spinal cord, Lineage Specification of Neuronal Precursors in the Mouse Spinal-Cord, The Regulation of Neural Precursor Cells Within the Mammalian Brain, Leukemia Inhibitory Factor Rescues Motoneurons From Axotomy-Induced Cell-Death, Leukemia Inhibitory Factor Prevents the Death of Axotomised Sensory Neurons in the Dorsal-Root Ganglia of the Neonatal Rat, Regulation of the Early Development of the Nervous-System by Growth-Factors, Mutant Mouse Cerebellum Does Not Provide Specific Signals for the Selective Migration and Development of Transplanted Purkinje-Cells, Leukemia Inhibitory Factor Promotes the Neuronal Development of Spinal-Cord Precursors From the Neural-Tube, Denovo Generation of Neuronal Cells From the Adult-Mouse Brain, Gene discovery in cerebral connectivity: Mapping the brain's roads, Oligodendroglial responses to neuronal activity in the developing and adult CNS, Identification and characterisation of a novel mirror movement gene, The regulation of CNS myelination by neuronal activity, Genome-Wide Profiling of Embryonal Tumors with Multilayered Rosettes (Etmr), PNR-12Genome-wide profiling of embryonal tumors with multilayered rosettes (ETMR), Astroglial-mediated remodeling of the interhemispheric midline is exclusive to eutherian mammals and underlies the formation of the corpus callosum, Astroglial-mediated remodeling of the interhemispheric midline underlies the formation of the corpus callosum in eutherian mammals.
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