About
9
Publications
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Introduction
Tal Offer currently works at Lycored Health Division.
She has over15 years of experience in R&D and product management.
Since joining Lycored in 2011 she has been developing and managing the finished products and the carotenoids category.
As a scientist she has focused on biochemical processes in the area of nutrition and health.
Additional affiliations
December 2004 - December 2005
April 2002 - December 2004
Publications
Publications (9)
The known functions of folate are to support one-carbon metabolism and to serve as photoreceptors for cryptochromes and photolyases. We demonstrate that 5-methyltetrahydrofolate (5-MTHF, the predominant folate in plasma) is also a potent, near diffusion limited, scavenger of singlet oxygen and quencher of excited photosensitizers. Both pathways res...
Double-stranded DNA breaks are serious lesions that contribute to the pathogenesis of cancer and chronic illnesses. Free radical injury is an important mechanism for the production of DNA modifications that eventually lead to chromosomal breaks. The generation of free radicals is increased in sickle cell disease (SCD) owing to the presence of the r...
Exposure to environmental stress, such as radiation, poor nutrition, or smoking, can cause hazardous lesions in DNA, including double-strand breaks. In red blood cells, a DNA fragment or lagging chromosome forms a micronucleus when left behind after the main nucleus is extruded to form the mature reticulocyte during erythropoiesis. Reticulocytes wi...
Iron-mediated oxidative stress plays an important role in the pathophysiology of thalassemia. Oxidative stress can cause lesions in DNA, including double-strand breaks. DNA damage, which is a cause of cancer (although not the only one), is recognized as deleterious. Unlike cancer, DNA damage can be assayed easily and relatively inexpensively in hum...
Reactive oxygen-derived species and particularly OH radicals can degrade hyaluronic acid (HA), resulting in a loss of viscosity and a subsequent decrease in its effectiveness as a joint-lubricating agent. The production of OH in the vicinity of HA can be catalyzed by bound redox-active metals, which participate in the Haber-Weiss reaction. Damage t...
Nitroxides are cell-permeable stable radicals that protect biomolecules from oxidative damage in several ways. The mechanisms of protection studied to date include removal of superoxide radicals as SOD-mimics, oxidation of transition metal ions to preempt the Fenton reaction, and scavenging carbon-centered radicals. However, there is no agreement r...
Native Cu,Zn-SOD and synthetic SOD mimics sometimes demonstrate an apparently anomalous bell-shaped dose-response relationship when protecting various biological systems from oxidative stress. Several mechanisms have been proposed to account for such an effect, including: overproduction of H(2)O(2), peroxidative activity of SOD, and opposing roles...
Nitroxide stable free radicals have previously been found to afford protection in various biological systems against diverse types of oxidative stress, including, ischemia/reperfusion, hyperoxia, mechanical trauma, toxic xenobiotics, ionizing radiation, gastric and colonic irritants or strong oxidants. Dismutation of superoxide has originally been...
