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pro vyhledávání: '"Robert Z. Hopkins"'
Autor:
Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species. :207-215
Nature (along with its several sister journals) is among the most highly influential journals that publish cutting edge scientific findings in diverse fields, including biomedical sciences. The purpose of the “ROS in Nature” series is to provide
Autor:
Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species.
Acne vulgaris (acne for short) inflicts virtually all teenagers and young adults and is the number one most common skin disease globally. It is an inflammatory disease causing tremendous esthetical and phycological burden. Although conventional medic
Publikováno v:
Reactive Oxygen Species.
Acne vulgaris (acne for simplicity) is the most common skin disorder with dysregulated inflammation as a prominent underling pathophysiology. While the exact etiologies of acne remain elusive, it has long been suggested that the development of acne i
Autor:
Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species.
As the most abundant thiol compound, the reduced form of glutathione (GSH) has won a great title of being a major intracellular antioxidant. Indeed, GSH has been well known to play a major role in the detoxification of reactive oxygen species (ROS) a
Autor:
Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species.
Hydrogen peroxide (H2O2) is one of the most extensively studied reactive oxygen species (ROS) in biology and medicine. It is generated constitutively from various cellular processes either directly via two-electron reduction of molecular oxygen indir
Autor:
Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species.
Since 1933 when Linus Pauling, a twice-honored Nobel laureate, proposed its existence based on the theory of quantum mechanics, superoxide has gradually taken central stage in the research field of reactive oxygen species (ROS) in biology and medicin
Autor:
Harper Z. Bird, Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species.
Since the discovery of its role in regulating phase 2 genes in 1997, Nrf2 has become a superstar among redox-regulated transcription factors. Research has continued to shed new light on the nature of this signaling molecule and its associated machine
Autor:
Harper Z. Bird, Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species. 1
Superoxide is a primary reactive oxygen species (ROS) formed from aerobic metabolism. Superoxide dismutase (SOD), by catalyzing the conversion of superoxide to form hydrogen peroxide and molecular oxygen, is a first-line defense against superoxide to
Autor:
Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species.
The journal Cell is among the most influential journals in the field of bioscience. The purpose of the “ROS in Cell” series is to provide a platform for introducing and discussing cutting edge scientific findings on ROS bioscience reported in Cel
Autor:
Robert Z. Hopkins
Publikováno v:
Reactive Oxygen Species. 1
Tightly regulated levels of reactive oxygen species (ROS) are instrumental in redox homeostasis and cell signal transduction. Nuclear factor E2-related factor 2 (Nrf2), a central regulator of cellular antioxidative and cytoprotective genes, plays a c