Her main research concerns Cancer research, Stem cell, Cell biology, Molecular biology and Glioma. She has included themes like RNA editing, Gene silencing, RNA-binding protein, Programmed cell death and ATG12 in her Cancer research study. Her Stem cell research is multidisciplinary, incorporating perspectives in Microvesicles, Cellular differentiation and Pathology.
Her Cell biology study incorporates themes from Astrocyte, Endocrinology, Neurotrophic factors and Internal medicine. Chaya Brodie has researched Molecular biology in several fields, including Carcinogenesis, Transcriptome, ADAR and RNA. Her research in Glioma intersects with topics in Cell culture, Cell adhesion and In vivo.
Chaya Brodie mostly deals with Cancer research, Cell biology, Glioma, Internal medicine and Endocrinology. Her research integrates issues of Cell culture, Apoptosis, Protein kinase B, Stem cell and Mesenchymal stem cell in her study of Cancer research. The study incorporates disciplines such as Molecular biology and Receptor in addition to Cell biology.
Chaya Brodie combines subjects such as Carcinogenesis and Gene with her study of Molecular biology. Her studies deal with areas such as Cell migration, Cell growth, Transfection, microRNA and Gene silencing as well as Glioma. Chaya Brodie works mostly in the field of Endocrinology, limiting it down to concerns involving Nerve growth factor and, occasionally, Secretion, B cell and Neurotrophin.
Cancer research, Stem cell, Mesenchymal stem cell, Glioma and Neural stem cell are her primary areas of study. The various areas that Chaya Brodie examines in her Cancer research study include Paracrine signalling, Carcinogenesis, Experimental autoimmune encephalomyelitis, Protein kinase C and Encephalomyelitis. Her Stem cell research is multidisciplinary, incorporating elements of Microvesicles, Immunology, Pathology, Long non-coding RNA and STAT3.
Her Mesenchymal stem cell research is multidisciplinary, relying on both Cell therapy, Internal medicine, Bone marrow and Genetic model. Her Glioma research is multidisciplinary, incorporating perspectives in Cancer stem cell, Apoptosis, Transfection, microRNA and Gene silencing. Neural stem cell is frequently linked to Molecular biology in her study.
Chaya Brodie mainly focuses on Mesenchymal stem cell, Stem cell, Cell therapy, Cancer research and Pathology. Her Mesenchymal stem cell study introduces a deeper knowledge of Cell biology. Her Cell biology research includes elements of Molecular biology, Cellular differentiation, mCherry and Pharmacology.
Her Stem cell research focuses on Microvesicles and how it connects with Translational medicine, Neuroscience, Cell transplantation and Extracellular vesicles. Her primary area of study in Cancer research is in the field of Glioma. Chaya Brodie has researched Glioma in several fields, including Apoptosis, Internal medicine and Phenformin.
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Regulation of cell apoptosis by protein kinase c δ
C. Brodie;P. M. Blumberg.
The induction of autophagy by γ-radiation contributes to the radioresistance of glioma stem cells
Stephanie L. Lomonaco;Susan Finniss;Cunli Xiang;Ana DeCarvalho.
International Journal of Cancer (2009)
Altered adenosine-to-inosine RNA editing in human cancer
Nurit Paz;Erez Y. Levanon;Erez Y. Levanon;Ninette Amariglio;Ninette Amariglio;Amy B. Heimberger.
Genome Research (2007)
Role of nerve growth factor in a mouse model of allergic airway inflammation and asthma.
Armin Braun;Elena Appel;Rina Baruch;Udo Herz.
European Journal of Immunology (1998)
Tyrosine Phosphorylation of Protein Kinase Cδ Is Essential for Its Apoptotic Effect in Response to Etoposide
Michal Blass;Ilana Kronfeld;Gila Kazimirsky;Peter M. Blumberg.
Molecular and Cellular Biology (2002)
Characterization of Functional Vanilloid Receptors Expressed by Mast Cells
Tamás Bı́ró;Marcus Maurer;Shayan Modarres;Nancy E. Lewin.
Selective cytotoxic effect of ZnO nanoparticles on glioma cells
Stella Ostrovsky;Gila Kazimirsky;Aharon Gedanken;Chaya Brodie.
Nano Research (2009)
Protein Kinase Cα and Protein Kinase Cδ Play Opposite Roles in the Proliferation and Apoptosis of Glioma Cells
Revital Mandil;Ely Ashkenazi;Michal Blass;Ilana Kronfeld.
Cancer Research (2001)
Atypical PKC-ζ regulates SDF-1–mediated migration and development of human CD34+ progenitor cells
Isabelle Petit;Polina Goichberg;Asaf Spiegel;Amnon Peled.
Journal of Clinical Investigation (2005)
Threonine phosphorylation diverts internalized epidermal growth factor receptors from a degradative pathway to the recycling endosome.
Jing Bao;Iris Alroy;Hadassa Waterman;Eyal D. Schejter.
Journal of Biological Chemistry (2000)
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