Terry D. Oberley

What is he best known for?

The fields of study he is best known for:

• Gene
• Cancer
• Enzyme

His scientific interests lie mostly in Superoxide dismutase, Molecular biology, Oxidative stress, Reactive oxygen species and Biochemistry. The study incorporates disciplines such as Cancer research, Carcinogenesis, Tumor suppressor gene, Transfection and Mitochondrion in addition to Superoxide dismutase. His biological study spans a wide range of topics, including Endocrinology, Cell growth, Apoptosis, Cell cycle and Internal medicine.

The concepts of his Molecular biology study are interwoven with issues in Antioxidant, Enzyme inducer, Cytosol, Genetic enhancement and Plating efficiency. When carried out as part of a general Oxidative stress research project, his work on Glutathione peroxidase is frequently linked to work in Ultrafine particle, therefore connecting diverse disciplines of study. His study in the fields of G alpha subunit, Proteolysis, Lipofuscin and Dithiothreitol under the domain of Biochemistry overlaps with other disciplines such as Polycyclic aromatic hydrocarbon.

His most cited work include:

• Guidelines for the use and interpretation of assays for monitoring autophagy (3242 citations)
• Ultrafine particulate pollutants induce oxidative stress and mitochondrial damage. (1581 citations)
• CuZnSOD deficiency leads to persistent and widespread oxidative damage and hepatocarcinogenesis later in life (517 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of investigation include Molecular biology, Superoxide dismutase, Internal medicine, Endocrinology and Biochemistry. His research on Molecular biology also deals with topics like

• Cell growth together with Cell and Cell cycle,
• Fibronectin together with Chemically defined medium. Terry D. Oberley has researched Superoxide dismutase in several fields, including Catalase and Transfection.

Terry D. Oberley works mostly in the field of Internal medicine, limiting it down to topics relating to Cancer research and, in certain cases, Programmed cell death, Prostate cancer and Carcinogenesis, as a part of the same area of interest. Terry D. Oberley has included themes like Genetically modified mouse and LNCaP in his Endocrinology study. His Oxidative stress study deals with Mitochondrion intersecting with Reactive oxygen species and Apoptosis.

He most often published in these fields:

• Molecular biology (32.52%)
• Superoxide dismutase (30.58%)
• Internal medicine (30.10%)

What were the highlights of his more recent work (between 2004-2016)?

• Cancer research (14.56%)
• Mitochondrion (17.96%)
• Molecular biology (32.52%)

In recent papers he was focusing on the following fields of study:

His main research concerns Cancer research, Mitochondrion, Molecular biology, Internal medicine and Oxidative stress. His research integrates issues of Apoptosis and Reactive oxygen species in his study of Mitochondrion. His Molecular biology study combines topics from a wide range of disciplines, such as Immunohistochemistry and Staining.

Terry D. Oberley interconnects Explant culture, Endocrinology and Oncology in the investigation of issues within Internal medicine. His Oxidative stress study incorporates themes from Mitochondrial DNA and Doxorubicin. Terry D. Oberley works in the field of Superoxide dismutase, namely Glutathione peroxidase.

Between 2004 and 2016, his most popular works were:

• Guidelines for the use and interpretation of assays for monitoring autophagy (3242 citations)
• CuZnSOD deficiency leads to persistent and widespread oxidative damage and hepatocarcinogenesis later in life (517 citations)
• p53 Translocation to Mitochondria Precedes Its Nuclear Translocation and Targets Mitochondrial Oxidative Defense Protein-Manganese Superoxide Dismutase (208 citations)

In his most recent research, the most cited papers focused on:

• Gene
• Cancer
• Enzyme

His primary scientific interests are in Mitochondrion, Molecular biology, Cell biology, Superoxide dismutase and Oxidative stress. His Mitochondrion study combines topics in areas such as Cell cycle, Nitric oxide synthase and Doxorubicin. His study in Molecular biology is interdisciplinary in nature, drawing from both Cell growth, Apoptosis, Cell division, Cytotoxic T cell and Cell type.

His studies in Superoxide dismutase integrate themes in fields like Peroxynitrite, Superoxide, Anesthesia and Cardiotoxicity. His Oxidative stress study is concerned with the larger field of Endocrinology. His Endocrinology study integrates concerns from other disciplines, such as Internal medicine, Aconitase and DNA repair.

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