1992 - Fellow of the American Association for the Advancement of Science (AAAS)
His scientific interests lie mostly in Biochemistry, Catalase, Isozyme, Gene and Superoxide dismutase. His study in Cell biology extends to Biochemistry with its themes. His Catalase study combines topics from a wide range of disciplines, such as Plant disease resistance, Genetics, Gene expression, Transgene and Molecular biology.
His research integrates issues of Tissue specific, Medical research and Allele in his study of Isozyme. John G. Scandalios has included themes like Scutella and Enzyme in his Gene study. His study in Superoxide dismutase is interdisciplinary in nature, drawing from both Mitochondrion and Superoxide.
John G. Scandalios focuses on Biochemistry, Isozyme, Catalase, Molecular biology and Gene. The concepts of his Isozyme study are interwoven with issues in Oxidoreductase, Aminopeptidase, Allele, NAD+ kinase and Alcohol dehydrogenase. His Catalase research integrates issues from Reactive oxygen species, Gene expression, Mutant and Botany.
In his research on the topic of Molecular biology, Peptide sequence and Nucleic acid sequence is strongly related with Complementary DNA. His Gene research is classified as research in Genetics. His work carried out in the field of Superoxide dismutase brings together such families of science as Superoxide and Mitochondrion.
John G. Scandalios mainly focuses on Biochemistry, Catalase, Reactive oxygen species, Gene expression and Gene. His research related to Isozyme, Superoxide dismutase, Mutant, Oxidative stress and Hydrogen peroxide might be considered part of Biochemistry. The various areas that John G. Scandalios examines in his Superoxide dismutase study include Transcription factor and Superoxide.
His Catalase study combines topics in areas such as Molecular biology, Messenger RNA and Embryo. His Gene expression study incorporates themes from Gene silencing and Hypersensitive response. His Gene research is within the category of Genetics.
John G. Scandalios mainly investigates Biochemistry, Catalase, Antioxidant, Reactive oxygen species and Genetics. His research on Biochemistry frequently links to adjacent areas such as Cell biology. John G. Scandalios interconnects Superoxide dismutase, Gene expression, Gene, Molecular biology and Isozyme in the investigation of issues within Catalase.
The subject of his Isozyme research is within the realm of Enzyme. His work deals with themes such as Respiratory burst and NADPH oxidase, which intersect with Antioxidant. As a member of one scientific family, John G. Scandalios mostly works in the field of Reactive oxygen species, focusing on Oxidative stress and, on occasion, Activator, Promoter, Transcription factor, Metabolism and Mitochondrion.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Oxygen Stress and Superoxide Dismutases
J. G. Scandalios.
Plant Physiology (1993)
Oxidative stress: molecular perception and transduction of signals triggering antioxidant gene defenses
Brazilian Journal of Medical and Biological Research (2005)
Genetic control of multiple molecular forms of enzymes in plants: A review
John G. Scandalios.
Biochemical Genetics (1969)
Oxidative stress and the molecular biology of antioxidant defenses.
John G. Scandalios.
Advances in genetics
M. Demerec;Ernst W. Caspari;J. M. Thoday;John G. Scandalios.
Advances in Genetics (1947)
Cis-elements and trans-factors that regulate expression of the maize Cat1 antioxidant gene in response to ABA and osmotic stress: H2O2 is the likely intermediary signaling molecule for the response.
Lingqiang M. Guan;Jun Zhao;John G. Scandalios.
Plant Journal (2000)
Isozymes : current topics in biological and medical research
Mario C. Rattazzi;John G. Scandalios;Gregory S. Whitt.
Catalases in Plants: Gene Structure, Properties, Regulation, and Expression
John G. Scandalios;Lingqiang Guan;Alexios N. Polidoros.
Cold Spring Harbor Monograph Archive (1997)
The rise of ROS
John G Scandalios.
Trends in Biochemical Sciences (2002)
Response of plant antioxidant defense genes to environmental stress.
John G. Scandalios.
Advances in Genetics (1990)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: