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Full-Text Articles in Other Nutrition
Inside Unlv, Cate Weeks, Diane Russell, David Ashley, Grace Russell
Inside Unlv, Cate Weeks, Diane Russell, David Ashley, Grace Russell
Inside UNLV
No abstract provided.
Cholesterol-Lowering Properties Of Plant Sterols Esterified With Beef Tallow Fatty Acids In Hamsters, David M. Guderian Jr., Heather E. Rasmussen, Curtis A. Wray, Patrick Dussault, Timothy P. Carr
Cholesterol-Lowering Properties Of Plant Sterols Esterified With Beef Tallow Fatty Acids In Hamsters, David M. Guderian Jr., Heather E. Rasmussen, Curtis A. Wray, Patrick Dussault, Timothy P. Carr
Department of Nutrition and Health Sciences: Faculty Publications
Plant sterol esters (PSE) reduce plasma low-density lipoprotein cholesterol concentration by inhibiting cholesterol absorption. Previous work in our laboratory indicated that PSE containing stearic acid (SA), compared to linoleic acid, were significantly more effective at reducing cholesterol absorption. We tested the cholesterol lowering properties of PSE containing fatty acids from beef tallow, a natural and abundant source of SA. Male hamsters were fed diets containing 0.0%, 0.5%, 1.0%, or 5.0% beef tallow PSE for 4 weeks. Dose-dependent reductions (P < .05) were observed in cholesterol absorption, liver esterified cholesterol, and plasma nonhigh-density lipoprotein cholesterol concentration; hamsters fed 5.0% PSE exhibited reductions of 56%, 98%, and 38%, respectively, compared to controls. Concurrent increases (P < .05) in fecal sterol excretion were also observed. In a second hamster study, the cholesterol-lowering properties of beef tallow PSE were compared to hamsters fed molar equivalents of free plant sterols (PS) and free SA. Beef tallow PSE were significantly more effective at reducing liver and plasma cholesterol concentrations than PS and SA consumed individually. Whether PS and SA act through independent or synergistic mechanisms will require further research, although the present findings support the use of dietary PSE containing beef tallow fatty acids in the management of hypercholesterolemia.
Feeding Drosophila A Biotin-Deficient Diet For Multiple Generations Increases Stress Resistance And Lifespan And Alters Gene Expression And Histone Biotinylation Patterns, Erin M. Smith, Jia Tse Hoi, Joel C. Eissenberg, James D. Shoemaker, Wendi S. Neckameyer, Anne M. Ilvarsonn, Lawrence G. Harshman, Vicki L. Schlegel, Janos Zempleni
Feeding Drosophila A Biotin-Deficient Diet For Multiple Generations Increases Stress Resistance And Lifespan And Alters Gene Expression And Histone Biotinylation Patterns, Erin M. Smith, Jia Tse Hoi, Joel C. Eissenberg, James D. Shoemaker, Wendi S. Neckameyer, Anne M. Ilvarsonn, Lawrence G. Harshman, Vicki L. Schlegel, Janos Zempleni
Department of Nutrition and Health Sciences: Faculty Publications
Caloric restriction increases stress resistance and lifespan in Drosophila melanogaster and other species. The roles of individual nutrients in stress resistance and longevity are largely unknown. The vitamin biotin is a potential candidate for mediating these effects, given its known roles in stress signaling and gene regulation by epigenetic mechanisms, i.e., biotinylation of histones. Here, we tested the hypothesis that prolonged culture of Drosophila on biotin-deficient medium increases stress resistance and lifespan. Flies were fed a biotin-deficient diet for multiple generations; controls were fed a biotin-normal diet. In some experiments, a third group of flies was fed a biotin-deficient diet …
Aromatic Compounds In Three Varieties Of Turnip Greens Harvested At Three Maturity Levels, Georgia Jones, Ola Goode Sanders, Casey Grimm
Aromatic Compounds In Three Varieties Of Turnip Greens Harvested At Three Maturity Levels, Georgia Jones, Ola Goode Sanders, Casey Grimm
Department of Nutrition and Health Sciences: Faculty Publications
Turnip greens (Brassica rapa) are commonly consumed in the southern U.S.A. Typically, they have a bitter taste, which increases with maturity, probably because of increased levels of glucosinolates. While glucosinolate degradation products have been isolated from various members of the Brassica family, the effect of variety and maturity on these products has not been determined. This study focused on the glucosinolate degradation products of three varieties of turnip greens: Purple Top, Seven Top and Tokyo Cross, harvested 45, 60 and 75 days after planting. Four volatile components (benzene acetonitrile, benzene propane nitrile, 1H-indole-3-acetonitrile and benzene ethyl isothiocyanate) were isolated, identified …