1987 - Member of the National Academy of Sciences
1973 - Fellow of John Simon Guggenheim Memorial Foundation
1965 - Fellow of the American Association for the Advancement of Science (AAAS)
His primary areas of investigation include Biochemistry, Enzyme, Glutathione, Carcinogen and Reductase. Biochemistry is represented through his NADH Dehydrogenase, Oxidoreductase, Enzyme inducer, NAD+ kinase and Quinone research. His Oxidoreductase research is multidisciplinary, incorporating perspectives in Molecular biology and Stereochemistry.
His studies in Enzyme inducer integrate themes in fields like Inducer and Sulforaphane. His Enzyme study incorporates themes from DNA damage and Antioxidant. The study incorporates disciplines such as Cruciferous vegetables and Anticarcinogen in addition to Carcinogen.
Paul Talalay mostly deals with Biochemistry, Enzyme, Stereochemistry, Reductase and NAD+ kinase. His study in NADH Dehydrogenase, Glutathione, Carcinogen, Enzyme inducer and Oxidoreductase is carried out as part of his Biochemistry studies. His research in Enzyme intersects with topics in Inducer, Chromatography, Anticarcinogen and Methionine.
In his study, Intramolecular force and Catalysis is inextricably linked to Isomerase, which falls within the broad field of Stereochemistry. The Reductase study which covers Quinone that intersects with Quinone Reductases and Quinone oxidoreductase. Oxidative stress is closely connected to Flavoprotein in his research, which is encompassed under the umbrella topic of NAD+ kinase.
His main research concerns Biochemistry, Sulforaphane, Enzyme, Pharmacology and Inducer. NAD+ kinase, KEAP1, Oxidative stress, Quinone oxidoreductase and Quinone are subfields of Biochemistry in which his conducts study. His work in the fields of Sulforaphane, such as Broccoli sprouts, overlaps with other areas such as Glucoraphanin.
His studies deal with areas such as Stereochemistry and Carcinogen as well as Enzyme. His Inducer research includes themes of Cancer research and Cysteine. His Isothiocyanate study combines topics from a wide range of disciplines, such as Macrophage migration inhibitory factor and Anticarcinogen.
Paul Talalay mainly focuses on Biochemistry, Sulforaphane, Oxidative stress, KEAP1 and Broccoli sprouts. His Biochemistry study frequently draws connections to other fields, such as Bioassay. His work deals with themes such as Glutathione, Crossover study and Excretion, which intersect with Sulforaphane.
Paul Talalay has researched Oxidative stress in several fields, including Antibiotics, Antioxidant and NAD+ kinase, Enzyme. His Enzyme research is multidisciplinary, incorporating elements of Curcumin, Oxidative phosphorylation and Quinone. His biological study deals with issues like Pharmacology, which deal with fields such as Biotechnology and Isothiocyanate.
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Quantitative analysis of dose-effect relationships: the combined effects of multiple drugs or enzyme inhibitors
Ting Chao Chou;Paul Talalay.
Advances in Enzyme Regulation (1984)
A major inducer of anticarcinogenic protective enzymes from broccoli: isolation and elucidation of structure.
Yuesheng Zhang;Paul Talalay;Cheon Gyu Cho;Gary H. Posner.
Proceedings of the National Academy of Sciences of the United States of America (1992)
Broccoli sprouts: An exceptionally rich source of inducers of enzymes that protect against chemical carcinogens
Jed W. Fahey;Yuesheng Zhang;Paul Talalay.
Proceedings of the National Academy of Sciences of the United States of America (1997)
Increase of NAD(P)H:quinone reductase by dietary antioxidants: possible role in protection against carcinogenesis and toxicity
Ann M. Benson;Markus J. Hunkeler;Paul Talalay.
Proceedings of the National Academy of Sciences of the United States of America (1980)
Protection against electrophile and oxidant stress by induction of the phase 2 response: fate of cysteines of the Keap1 sensor modified by inducers.
Nobunao Wakabayashi;Albena T. Dinkova-Kostova;W. David Holtzclaw;Moon Il Kang.
Proceedings of the National Academy of Sciences of the United States of America (2004)
Sulforaphane inhibits extracellular, intracellular, and antibiotic-resistant strains of Helicobacter pylori and prevents benzo[a]pyrene-induced stomach tumors.
Jed W. Fahey;Xavier Haristoy;Patrick M. Dolan;Thomas W. Kensler.
Proceedings of the National Academy of Sciences of the United States of America (2002)
Anticarcinogenic activities of sulforaphane and structurally related synthetic norbornyl isothiocyanates.
Yuesheng Zhang;Thomas W. Kensler;Cheon Gyu Cho;Gary H. Posner.
Proceedings of the National Academy of Sciences of the United States of America (1994)
Identification of a common chemical signal regulating the induction of enzymes that protect against chemical carcinogenesis
P Talalay;M J De Long;H J Prochaska.
Proceedings of the National Academy of Sciences of the United States of America (1988)
Anticarcinogenic Activities of Organic Isothiocyanates: Chemistry and Mechanisms
Yuesheng Zhang;Paul Talalay.
Cancer Research (1994)
Potency of Michael reaction acceptors as inducers of enzymes that protect against carcinogenesis depends on their reactivity with sulfhydryl groups
Albena T. Dinkova-Kostova;Michael A. Massiah;Richard E. Bozak;Ronald J. Hicks.
Proceedings of the National Academy of Sciences of the United States of America (2001)
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