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The Production and Prevention of Stomach Ulcers in RodentsRudrud, Eric H. 01 May 1974 (has links)
Rats given L-Ascorbic Acid in their drinking water prior to and during starvation did not develop severe ulceration in the glandular portion of their stomachs. Control rats which were either nontreated or given deactivated L-Ascorbic Acid developed severe stomach pathology on the starvation regimen.
The present study was based on the finding that food deprivation results in severe rumenal ulceration in rats. Given that L-AA is essential in maintaining tissue integrity and that ulcers are examples of tissue degeneration, the L-AA in large amounts could retard, or prevent, the formation of starvation induced stomach ulcers in rats.
The results show that large amounts of active L-AA were beneficial in maintaining the integrity of rat gastrointestinal tissue exposed to starvation conditions which, in the vitaimin's absence, induces deterioration.
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Evaluating the Mechanism of Ascorbic Acid Bleaching of Anthocyanins and Proposed Ways to Mitigate the InteractionFarr, Jacob E. 04 September 2018 (has links)
No description available.
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Riboflavin Photosensitized Oxidation of Amino AcidsYettella V Ramesh, Reddy 10 September 2008 (has links)
No description available.
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Development and Effectiveness of Three Hydrocolloid-Lipid Emulsion Coatings on Preservation of Quality Characteristics in Green Bell PeppersBall, Jennifer Ann 23 April 1999 (has links)
Three hydrocolloid-lipid emulsion coatings were developed using Humkote brand partially hydrogenated cottonseed and vegetable oil, and one of three combined hydrocolloid bases: xanthan gum and propylene glycol alginate (xanthan coating), locust bean gum and xanthan gum (locust bean gum coating), and maltodextrin. Sensory testing using a ranking preference test indicated that these coatings had acceptable appearance and palatability. Quality characteristics of green bell peppers (Capsicum annum L. cv. King Arthur) measured during the 5-week storage period included: respiration rates, chlorophyll content, surface color, puncture force, pectin (uronic acid) content, ascorbic acid (AA) and dehydroascorbic acid (DHA) content, and cumulative weight loss. No significant differences between coated and uncoated peppers were noted in tests for respiration, puncture force, hue angle, chlorophyll content, and AA content. Uncoated peppers had significantly inferior moisture retention (p<0.05), which caused them to be unsaleable after 8 days, while coated groups were saleable for an additional 6 to 8 days. Uncoated fruits also had greater uronic acid breakdown (p<0.05) and higher DHA content (p<0.06) than coated peppers. Significant weekly changes (all treatment groups combined) included linear increases in respiration rates (p<0.01) and moisture loss (p<0.01), increasing linear and quadratic trends in uronic acid content (p<0.01 for both trends), increasing quadratic trends for both chlorophyll and AA content (p<0.05, p<0.01, respectively), and decreasing linear and quadratic (p<0.05 for both trends) in DHA content. The only significant difference between coated groups was in chroma value, with maltodextrin coated peppers appearing less vivid than locust bean coated peppers. Overall, all three coatings performed equally well during the storage study. However, coatings with higher lipid content, which included xanthan gum and locust bean gum groups, withstood humidity changes better than the maltodextrin coated peppers. Coating application provided the greatest benefits in terms of texture maintenance through water retention and prevention of pectin breakdown, despite the lack of differences observed in puncture force. Coatings may also have prevented AA oxidation as demonstrated by the higher DHA content in uncoated groups, however AA patterns do not confirm this concept. Future research should be directed toward further minimizing textural changes and maximizing coating durability. / Ph. D.
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Evaluation of Two Lipid-Based Edible Coatings For Their Ability to Preserve Post Harvest Quality of Green Bell PeppersBall, Jennifer Ann 05 September 1997 (has links)
Two lipid-based edible coatings, Apex B (AC Humko, Memphis, TN) and Durafresh (Pacrite, Ecoscience Produce Systems, Orlando, Fl) were evaluated for their ability to preserve post harvest quality changes in green bell peppers (Capsicum annum L. cv. King Arthur). Post harvest storage quality conditions tested included respiration rates, weight, color and texture changes, and stability of ascorbic acid (AA) and dehydroascorbic acid (DHA) content. Results indicated that no appreciable changes between days or treatment groups occurred in three of the parameters tested: weight, texture, and hue angle (p>0.05 for all parameters). Significant weekly changes were seen in respiration rates, dehydroascorbic acid content, and chromaticity values. Respiration rates and DHA were significantly higher during the last two weeks of the study (p=0.0001, p=0.0001 respectively). Chromaticity values were significantly lower, indicating a more faded color on the 14th day of the study alone (p=0.0097). Initial AA levels were much lower than expected (average initial content=78.72mg/100g). Significant differences between coated and uncoated pepper groups were seen in AA and DHA levels. AA content was found to be significantly lower in coated peppers (p=0.0279), while DHA levels were significantly higher in coated groups (p=0.0126). Overall, coated groups differed little from uncoated counterparts, except in the area of vitamin content in which the coated peppers showed an increase in vitamin breakdown. Despite the results, modifications of lipid coatings are needed, such as creating bilayer and composite coatings that contain either polysaccharide or protein constituents to enhance coating effectiveness. / Master of Science
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The Effect of Storage on the Ascorbic Acid Content of Four Varieties of Canned Fruit JuiceWillard, Helen 09 1900 (has links)
The purposes of this study are (1) to determine the ascorbic acid content of a variety of fruit juices available in Denton, Texas, during March to July, 1943; (2) to ascertain the loss of ascorbic acid when canned grapefruit, orange, pineapple, and apple juices are opened and stored in the home refrigerator for several days' use; and (3) by means of data obtained, to make recommendations as to the most advantageous ways of using one's "points" in purchasing canned fruit juices for their ascorbic acid value.
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The Ascorbic Acid Content of Orange Marmalade Made With and Without Commercial PectinBurt, Dorthy Farris 08 1900 (has links)
The purpose of the present study is to determine the ascorbic acid values of orange marmalades made with and without commercial pectin; and to compare these values with those obtained by testing random samples of home and commercial prepared orange marmalades.
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The Ascorbic Acid Metabolism of Fifty College Women in the North Texas State Teachers CollegeHarshbarger, Marjorie 08 1900 (has links)
A study of the ascorbic acid metabolism of a group of fifty college women in the North Texas State Teachers College between the months of April and July, 1943.
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Manipulation of ascorbic acid levels in Arabidopsis thalianaRadzio, Jessica A. 07 January 2005 (has links)
Vitamin C (ascorbic acid) is one of the most essential organic compounds required by the human body for normal metabolic function. Unfortunately, this valuable nutrient is not produced in the human body but most plants and animal can produce this molecule. Although ascorbic acid was not isolated until the early part of the twentieth century, it was known that eating limes and other citrus fruits could ward off the affects of scurvy as early as the 1500's. Ascorbate serves many critical functions in plants as well as the human body. In both, it works as a cofactor in the production of hydroxyproline-rich compounds and helps protect molecules such as proteins, lipids and fatty acids from oxidation. Although the biochemical pathway in animals has been known since the 1950's (Jackel et al., 1950), the exact process by which ascorbic acid is made in plants has eluded scientists. It was shown in 1963 that the inversion of the hexose carbon chain, which occurs in the animal pathway, is not a possible mode of synthesis in plants (Loewus, 1963). As an alternative, a non-inversion pathway was proposed, which achieves ascorbic acid using D-mannose and L-galactose as intermediates, referred to as the Smirnoff-Wheeler pathway (Wheeler et al., 1998). It was shown that transforming lettuce (cv. Grand Rapids and Black Seeded Simpson) and tobacco (cv. Xanthi) with the terminal enzyme in the animal biosynthetic pathway (GLO; L-gulono-gamma-lactone oxidase) increases the ascorbic acid content between 4 and 7 fold. It was also shown through feeding studies that wild type tobacco plants had elevated ascorbate levels when fed the animal precursor (Jain and Nessler, 2000). These data suggest that at least part of the animal pathway could be present in plants, along with the Smirnoff-Wheeler (1998) pathway.
To further investigate this discovery, wild type and ascorbic acid-deficient Arabidopsis thaliana were transformed with the glo. Homozygous lines of these transformants were generated and the ascorbic acid levels were compared to the untransformed wild type and mutant plants. Although the wild type plants containing glo did not show a significant increase in ascorbic acid production, all five of the vtc mutant lines had an increased ascorbic acid content relative to wild type level. These data suggest that an alternative pathway is present in plants that does not require many of the steps in the published Smirnoff-Wheeler (1998) pathway to produce ascorbic acid. / Master of Science
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The effects of ascorbic acid on skeletal muscle blood flow in aged ratsSchwagerl, Peter J. January 1900 (has links)
Master of Science / Department of Kinesiology / Timothy I. Musch / During exercise aged individuals exhibit endothelial dysfunction and decreased levels of whole-limb blood flow (BF), both of which may be linked mechanistically to age-related increases in reactive oxygen species (ROS). Ascorbic acid (AA) reduces levels of ROS and has been shown to alleviate vascular and hyperemic dysfunction at rest (Jablonski et al., 2007) and during small muscle mass exercise in humans (Kirby et al., 2009). However, the effect of AA on vascular function and BF to individual muscles during whole-body exercise is not known. PURPOSE: To test the hypothesis that a single high-dose infusion of AA would increase BF to the hindlimb musculature of old rats at rest and during treadmill running. METHODS: 18 old (~28 months) Fischer 344 x Brown Norway rats were randomized into rest (n=9) and exercise (n=9) groups. BF to the total hindlimb and individual muscles (28 individual muscles and muscle parts) was evaluated via radiolabeled microspheres before and after intra-arterial AA administration (76 mg/kg in 3 ml heparinized saline, 30 minute infusion) at rest and during submaximal treadmill running (20m/min, 5% grade). Total antioxidant capacity (TAC) and thiobarbituric acid reactive species (TBARS) were measured before and after AA to determine the ability of this specific dose of AA to increase levels of plasma antioxidants and decrease levels of ROS, respectively. RESULTS: At rest: AA increased TAC (~37%, P<0.05) but did not change TBARS (Pre: 6.8±0.7 vs Post: 7.0±1.0 µM, P>0.05). AA decreased total hindlimb BF (Pre: 25±3 vs Post: 16±2 ml/min/100g, P<0.05) and BF to 8 of the 28 muscles that were evaluated. During exercise: TAC was increased (~35%, P<0.05) and TBARS were decreased (Pre: 9.8±2.0 vs Post: 7.0±1.0 µM, P<0.05). However, there was no effect on either total hindlimb BF (Pre: 154±14 vs Post: 162±13, P>0.05) or BF to any of the individual muscles evaluated. CONCLUSIONS: Increased TAC via AA infusion reduces hindlimb muscle BF at rest but had no effect on BF during whole-body dynamic exercise. Thus, even though TBARS decreased, there was no evidence that AA supplementation increases blood flow to the locomotor muscles of old rats during whole-body exercise.
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