Cerebellum, Internal medicine, Endocrinology, Neuroscience and Mutant are her primary areas of study. Her Cerebellum study combines topics from a wide range of disciplines, such as Glutamate receptor, Central nervous system and Cell biology. Her Central nervous system research integrates issues from Regulation of gene expression and Synapse.
Her research in Internal medicine intersects with topics in Reeler and Anatomy. Neuroscience is represented through her Cerebellar cortex and Cerebellar Purkinje cell research. Her work focuses on many connections between Mutant and other disciplines, such as Ratón, that overlap with her field of interest in Habituation, Lipopolysaccharide and Molecular biology.
Nicole Delhaye-Bouchaud mostly deals with Cerebellum, Neuroscience, Purkinje cell, Internal medicine and Endocrinology. Her Cerebellum research is multidisciplinary, relying on both Central nervous system and Cell biology. Nicole Delhaye-Bouchaud has included themes like Cell and Programmed cell death in her Neuroscience study.
Her Purkinje cell research incorporates elements of Ataxia, Granule, Reeler and Pathology. Her research integrates issues of Wild type and In vivo in her study of Internal medicine. The various areas that Nicole Delhaye-Bouchaud examines in her Climbing fiber study include Rat Cerebellum, Stimulation, Cerebellar vermis and Anatomy.
Her primary areas of study are Cerebellum, Neuroscience, Purkinje cell, Lurcher and Cerebellar cortex. Her work carried out in the field of Cerebellum brings together such families of science as Central nervous system, Granule and Cell biology. Her Neuroscience research includes elements of Animal model, Neurotrophin, Inbred strain and Reeler.
Nicole Delhaye-Bouchaud has researched Purkinje cell in several fields, including Glutamate receptor, Molecular biology and Programmed cell death. Her studies in Lurcher integrate themes in fields like Proinflammatory cytokine, Hippocampus and Immunology. The study incorporates disciplines such as Hippocampal formation, Inferior olivary nucleus and Postsynaptic potential in addition to Cerebellar cortex.
Her main research concerns Cerebellum, Cerebellar cortex, Internal medicine, Endocrinology and Lurcher. Her work deals with themes such as Central nervous system and Cell biology, which intersect with Cerebellum. Her Cerebellar cortex study contributes to a more complete understanding of Neuroscience.
In general Internal medicine, her work in Lipoprotein, Cholesterol and Apolipoprotein B is often linked to Hypoalphalipoproteinemia linking many areas of study. Her research on Endocrinology often connects related topics like Gene expression. Her Lurcher research is multidisciplinary, relying on both Motor skill, Neurochemistry, Motor coordination, Water maze and Environmental enrichment.
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Evidence for a multiple innervation of Purkinje cells by climbing fibers in the immature rat cerebellum.
Francis Crepel;Jean Mariani;Nicole Delhaye-Bouchaud.
Journal of Neurobiology (1976)
Involvement of the N-methyl D-aspartate (NMDA) receptor in synapse elimination during cerebellar development
Sylvia Rabacchi;Yannick Bailly;Nicole Delhaye-Bouchaud;Jean Mariani.
Fate of the multiple innervation of cerebellar Purkinje cells by climbing fibers in immature control, x-irradiated and hypothyroid rats.
F. Crepel;N. Delhaye-Bouchaud;J.L. Dupont.
Developmental Brain Research (1981)
staggerer phenotype in retinoid-related orphan receptor α-deficient mice
Markus Steinmayr;Elisabeth André;François Conquet;Laure Rondi-Reig.
Proceedings of the National Academy of Sciences of the United States of America (1998)
INFLAMMATORY PROCESSES INDUCE BETA -AMYLOID PRECURSOR PROTEIN CHANGES IN MOUSE BRAIN
Bernard Brugg;Yolande Lemaigre Dubreuil;Gerda Huber;Emmanuelle E. Wollman.
Proceedings of the National Academy of Sciences of the United States of America (1995)
Multiple innervation of cerebellar purkinje cells by climbing fibres in staggerer mutant mouse.
F. Crepel;N. Delhaye-Bouchaud;J. M. Guastavino;I. Sampaio.
Severe Atherosclerosis and Hypoalphalipoproteinemia in the Staggerer Mouse, a Mutant of the Nuclear Receptor RORα
Anna Mamontova;Sandrine Séguret-Macé;Bruno Esposito;Colette Chaniale.
Synapse elimination in the central nervous system: functional significance and cellular mechanisms.
Lohof Am;Delhaye-Bouchaud N;Mariani J.
Reviews in The Neurosciences (1996)
Increased cerebellar Purkinje cell numbers in mice overexpressing a human bcl-2 transgene.
H.S. Zanjani;H.S. Zanjani;M.W. Vogel;N. Delhaye-Bouchaud;J.C. Martinou.
The Journal of Comparative Neurology (1996)
Differential roles of cerebellar cortex and deep cerebellar nuclei in the learning of the equilibrium behavior: studies in intact and cerebellectomized lurcher mutant mice.
J. Caston;F. Vasseur;T. Stelz;C. Chianale.
Developmental Brain Research (1995)
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