Molecular biology, Bone marrow, Pathology, Biochemistry and Mitochondrion are his primary areas of study. Joel S. Greenberger has researched Molecular biology in several fields, including Cell culture, In vitro, Signal transduction, Growth factor and SOD2. His Bone marrow research includes elements of Haematopoiesis, Stem cell and Stromal cell, Cancer research.
His Pathology research is multidisciplinary, incorporating elements of Total body irradiation, Lung, Transgene and Antigen. His study in the field of Cytochrome and Oxidative stress also crosses realms of Cardiolipin, Cardiolipins and Lysophospholipids. His Mitochondrion research focuses on Superoxide dismutase and how it connects with Reactive oxygen species and Cytochrome c oxidase.
His main research concerns Bone marrow, Molecular biology, Cancer research, Pathology and Stromal cell. His Bone marrow research is multidisciplinary, incorporating perspectives in Progenitor cell, Haematopoiesis, Stem cell and Total body irradiation. His Molecular biology study combines topics in areas such as Cell culture, Transfection, In vitro, Apoptosis and In vivo.
His Apoptosis study incorporates themes from Reactive oxygen species and Mitochondrion. His studies in Cancer research integrate themes in fields like Fanconi anemia and DNA repair. He works mostly in the field of Pathology, limiting it down to topics relating to Genetic enhancement and, in certain cases, Liposome, as a part of the same area of interest.
Joel S. Greenberger mainly focuses on Cancer research, Bone marrow, Fanconi anemia, Haematopoiesis and Total body irradiation. His Cancer research study combines topics from a wide range of disciplines, such as FANCA, Apoptosis, Cell cycle, Stem cell and DNA repair. His Bone marrow research includes themes of Radioresistance, Stromal cell and Molecular biology.
As a part of the same scientific study, Joel S. Greenberger usually deals with the Stromal cell, concentrating on Cell culture and frequently concerns with In vitro. His Haematopoiesis research integrates issues from Progenitor cell and Oncogene. His studies deal with areas such as Radiosensitivity and Transgene as well as Pathology.
His primary areas of investigation include Cancer research, Bone marrow, Apoptosis, Programmed cell death and Total body irradiation. His work carried out in the field of Cancer research brings together such families of science as Transforming growth factor, Radioresistance, DNA repair, Cell cycle and In vivo. His Bone marrow study integrates concerns from other disciplines, such as Haematopoiesis, Stem cell, Fanconi anemia and Stromal cell.
His Stem cell research incorporates themes from Fibrosis, Molecular biology, Tight junction and Intestinal permeability. His research in Stromal cell tackles topics such as Mesenchymal stem cell which are related to areas like Cell culture and CTGF. His Programmed cell death study incorporates themes from Metabolism and Cell biology.
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Bone marrow as a potential source of hepatic oval cells.
B. E. Petersen;W. C. Bowen;K. D. Patrene;W. M. Mars.
Oxidized arachidonic and adrenic PEs navigate cells to ferroptosis
Valerian E Kagan;Gaowei Mao;Feng Qu;Jose Pedro Friedmann Angeli.
Nature Chemical Biology (2017)
Age‐related intrinsic changes in human bone‐marrow‐derived mesenchymal stem cells and their differentiation to osteoblasts
Shuanhu Zhou;Joel S. Greenberger;Michael W. Epperly;Julie P. Goff.
Aging Cell (2008)
Demonstration of permanent factor-dependent multipotential (erythroid/neutrophil/basophil) hematopoietic progenitor cell lines
J S Greenberger;M A Sakakeeny;R K Humphries;C J Eaves.
Proceedings of the National Academy of Sciences of the United States of America (1983)
Hematopoietic stem cell compartment: Acute and late effects of radiation therapy and chemotherapy
Peter Mauch;Louis Constine;Joel Greenberger;William Knospe.
International Journal of Radiation Oncology Biology Physics (1995)
Hepatic oval cells express the hematopoietic stem cell marker Thy-1 in the rat
Bryon E. Petersen;Julie P. Goff;Joel S. Greenberger;George K. Michalopoulos.
Cytochrome c/cardiolipin relations in mitochondria: a kiss of death
Valerian E. Kagan;Hülya A. Bayır;Natalia A. Belikova;Olexandr Kapralov.
Free Radical Biology and Medicine (2009)
Bone marrow origin of myofibroblasts in irradiation pulmonary fibrosis.
Michael W. Epperly;Hongliang Guo;Joan E. Gretton;Joel S. Greenberger.
American Journal of Respiratory Cell and Molecular Biology (2003)
Sensitivity of corticosteroid-dependent insulin-resistant lipogenesis in marrow preadipocytes of obese-diabetic (db/db) mice
Joel S. Greenberger.
Apparatus responsive to movement of a patient during treatment/diagnosis
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