Glen D. Lawrence scite author profile

Although early studies showed that saturated fat diets with very low levels of PUFAs increase serum cholesterol, whereas other studies showed high serum cholesterol increased the risk of coronary artery disease (CAD), the evidence of dietary saturated fats increasing CAD or causing premature death was weak. Over the years, data revealed that dietary saturated fatty acids (SFAs) are not associated with CAD and other adverse health effects or at worst are weakly associated in some analyses when other contributing factors may be overlooked. Several recent analyses indicate that SFAs, particularly in dairy products and coconut oil, can improve health. The evidence of ω6 polyunsaturated fatty acids (PUFAs) promoting inflammation and augmenting many diseases continues to grow, whereas ω3 PUFAs seem to counter these adverse effects. The replacement of saturated fats in the diet with carbohydrates, especially sugars, has resulted in increased obesity and its associated health complications. Well-established mechanisms have been proposed for the adverse health effects of some alternative or replacement nutrients, such as simple carbohydrates and PUFAs. The focus on dietary manipulation of serum cholesterol may be moot in view of numerous other factors that increase the risk of heart disease. The adverse health effects that have been associated with saturated fats in the past are most likely due to factors other than SFAs, which are discussed here. This review calls for a rational reevaluation of existing dietary recommendations that focus on minimizing dietary SFAs, for which mechanisms for adverse health effects are lacking.

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Potentiometric titrations and oxidation-reduction potentials of manganese and copper-zinc superoxide dismutases

Lawrence¹,

Sawyer²

1979

Biochemistry

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Bovine erythrocyte superoxide dismutase and two manganese-containing superoxide dismutases have been reduced by the indirect coulometric titration method with methylviologen as the mediator-titrant. On the basis of the titration data the manganese-containing superoxide dismutases contain 1 g-atom of metal per mol of enzyme (dimer). E0' = +0.31 V for the enzyme from Escherichia coli which exhibits a complicated pH dependence above neutral pH. The Bacillus stearothermophilus manganese-containing enzyme has an E0' = +0.26 V and delta Em/pH is 50 mV. Bovine erythrocyte superoxide dismutase exhibits anomalous behavior in the coulometric titration curves, which is indicative of two nonequivalent copper centers in the enzyme. Addition K3Fe(CN)6 or K2IrCl6 to the enzyme solution, prior to coulometric titration, indicates that these anions bind preferentially to one of the copper centers.

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Promotion by phosphate of Fe(III)- and Cu(II)-catalyzed autoxidation of fructose

Lawrence

Mavi

Meral

2008

Carbohydrate Research

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Uranium toxicity and chelation therapy

Lawrence

Patel

Nusbaum

2014

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Uranium toxicity has been a concern for more than 100 years. The toxicology of many forms of uranium, ranging from dust of several oxides to soluble uranyl ion, was thoroughly studied during the Manhattan Project in the United States in the 1940s. The development of depleted uranium kinetic penetrators as armor-piercing incendiary weaponry produced a novel form of uranium environmental contamination, which led to greater susceptibility to the adverse health effects of the toxic heavy metal after its use in various military conflicts. The aerosol from burning uranium penetrator fragments is rapidly dissolved in biological fluids and readily absorbed from the lungs, leading to a wide range of toxic effects. We have studied some chelating agents for uranyl ion, including citrate ion and desferal (desferrioxamine B), which may be effective for minimizing the toxic effects of this insidious heavy metal. Some characteristics of the desferrioxamine complex are presented, along with information about the use of citrate as an effective chelating agent for therapy of uranium toxicity.

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Glen D. Lawrence

Benzene production from decarboxylation of benzoic acid in the presence of ascorbic acid and a transition-metal catalyst

Dietary Fats and Health: Dietary Recommendations in the Context of Scientific Evidence

Potentiometric titrations and oxidation-reduction potentials of manganese and copper-zinc superoxide dismutases

Promotion by phosphate of Fe(III)- and Cu(II)-catalyzed autoxidation of fructose

Uranium toxicity and chelation therapy

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