His primary areas of study are Neural cell adhesion molecule, Cell biology, Neurite, Signal transduction and Cell adhesion molecule. His Neural cell adhesion molecule research includes themes of Synaptic plasticity, Fibroblast growth factor receptor 1, Fibroblast growth factor receptor and Neuroscience. Vladimir Berezin has included themes like Cell migration and Biochemistry in his Cell biology study.
His Neurite research incorporates elements of Extracellular, Molecular biology and Protein kinase C. His biological study spans a wide range of topics, including Receptor, CREB and Protein kinase A. The study incorporates disciplines such as Cadherin, Cellular differentiation, Focal adhesion, Polysialic acid and Cell surface receptor in addition to Cell adhesion molecule.
Vladimir Berezin spends much of his time researching Neural cell adhesion molecule, Cell biology, Neurite, Fibroblast growth factor receptor and Neuroscience. His Neural cell adhesion molecule research is multidisciplinary, relying on both Synaptic plasticity, Fibronectin, Cell adhesion molecule and Molecular biology. His Molecular biology study incorporates themes from Transfection and MAPK/ERK pathway.
Vladimir Berezin works in the field of Cell biology, focusing on Signal transduction in particular. Vladimir Berezin combines subjects such as Extracellular, Protein kinase C, Kinase, Phosphorylation and Intracellular with his study of Neurite. His studies deal with areas such as Protein structure, Fibroblast growth factor receptor 3, Growth factor receptor and Binding site as well as Fibroblast growth factor receptor.
Vladimir Berezin mostly deals with Cell biology, Neural cell adhesion molecule, Neuroscience, Cell adhesion molecule and Neurite. His biological study focuses on Signal transduction. His Neural cell adhesion molecule research is multidisciplinary, incorporating elements of Neuroplasticity, Transfection and Peptide.
His Neuroscience research integrates issues from Progenitor cell, Neurodegeneration and Synaptic plasticity. His research integrates issues of Nectin, Cell adhesion, Neuroplastin and Ectodomain in his study of Cell adhesion molecule. His work carried out in the field of Neurite brings together such families of science as Fibroblast growth factor receptor 1, Polysialic acid and Immunology.
His main research concerns Cell biology, Neurite, Cell adhesion molecule, Neural cell adhesion molecule and Neuroscience. His studies in Cell biology integrate themes in fields like Cell, Fibroblast growth factor receptor, Ciliary neurotrophic factor and Transplantation. His research in Neurite intersects with topics in Fibroblast growth factor receptor 1, Molecular biology, Erythropoietin receptor, Erythropoietin and Neuroregeneration.
His Cell adhesion molecule course of study focuses on Ectodomain and Cell adhesion. He does research in Neural cell adhesion molecule, focusing on Polysialic acid specifically. Vladimir Berezin has researched Neuroscience in several fields, including Synaptic plasticity, Long-term potentiation, JAK-STAT signaling pathway and Janus kinase.
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Neural Cell Adhesion Molecule-Stimulated Neurite Outgrowth Depends on Activation of Protein Kinase C and the Ras–Mitogen-Activated Protein Kinase Pathway
Kateryna Kolkova;Vera Novitskaya;Nina Pedersen;Vladimir Berezin.
The Journal of Neuroscience (2000)
The metastasis-associated Mts1(S100A4) protein could act as an angiogenic factor.
Noona Ambartsumian;Jörg Klingelhöfer;Mariam Grigorian;Claus Christensen.
Structural basis for a direct interaction between FGFR1 and NCAM and evidence for a regulatory role of ATP
Vladislav V Kiselyov;Galina Skladchikova;Anders M Hinsby;Peter Holme Jensen.
The neural cell adhesion molecule in synaptic plasticity and ageing
Lars C.B Rønn;Vladimir Berezin;Elisabeth Bock.
International Journal of Developmental Neuroscience (2000)
Regulators of neurite outgrowth: role of cell adhesion molecules.
Darya Kiryushko;Vladimir Berezin;Elisabeth Bock.
Annals of the New York Academy of Sciences (2004)
Zippers make signals: NCAM-mediated molecular interactions and signal transduction.
Peter S. Walmod;Kateryna Kolkova;Vladimir Berezin;Elisabeth Bock;Elisabeth Bock.
Neurochemical Research (2004)
A neural cell adhesion molecule–derived peptide reduces neuropathological signs and cognitive impairment induced by Aβ25-35
B. Klementiev;T. Novikova;V. Novitskaya;P.S. Walmod.
Fra-1 Induces Morphological Transformation and Increases In Vitro Invasiveness and Motility of Epithelioid Adenocarcinoma Cells
Olga Kustikova;Dmitrii Kramerov;Mariam Grigorian;Vladimir Berezin.
Molecular and Cellular Biology (1998)
Oligomeric forms of the metastasis-related Mts1 (S100A4) protein stimulate neuronal differentiation in cultures of rat hippocampal neurons.
Vera Novitskaya;Mariam Grigorian;Marina Kriajevska;Svetlana Tarabykina.
Journal of Biological Chemistry (2000)
Intermediate filaments regulate astrocyte motility.
Eugene A. Lepekhin;Camilla Eliasson;Claes-Henric Berthold;Vladimir Berezin.
Journal of Neurochemistry (2008)
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