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1	A kinetic and mechanistic study of the liquid-phase reactions of ester-substituted alkylperoxyl radicals Appleton, Amanda Jane January 1999 (has links) No description available. 547
2	The effects of protein starvation and diabetes on the activity and content of the hepatic branched chain α-ketoacid dehydrogenase complex Gibson, Reid G. January 1992 (has links) This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu). Proteins Diabetic Ketoacidosis Keto Acids Oxidoreducatases Liver
3	Biochemical and structural characterisation of a thermophilic Aldo-Keto Reductase from Thermotoga maritima Simon, Willies January 2009 (has links) The Aldo-Keto Reductases (AKR) are a group of oxidoreductase enzymes structurally and mechanistically distinct from the Alcohol Dehydrogenases (ADH). The AKRs are of importance for their ability to produce industrially useful compounds including chiral secondary alcohols. The ADH family have traditionally been exploited for chiral alcohol production; the AKR family have currently been underexploited for chiral alcohol production and present the opportunity to search for novel oxidoreductases with properties and substrate specificities distinct from the ADH enzymes. The AKR studied here, from the hyperthermophilic bacteria Thermotoga maritima has been characterised with respect to its biochemical and structural properties, and its potential as a biocatalyst evaluated. This enzyme is the second example of a thermophilic AKR to have its three dimensional structure solved, the other also being from Thermot. maritima. The AKR studied exhibits high stability with respect to temperature and moderate amounts of organic solvents. A large preference for the reduction reaction compared to the oxidation reaction was found, which has previously been observed in other AKRs. The X-ray crystal structure was solved to 2.6Å resolution in the apo form. The final structure has three loop sections which were not located due to disorder within the crystal, which are expected to become ordered upon cofactor and substrate binding. A section of one of these missing loops was found to bind at the active site of the enzyme, with a glutamate occupying the site of substrate carbonyl binding. The formation of a dimer, increased helix-dipole stabilisation and long distance ion pair interactions all act to increase thermostability of the AKR with respect to its mesophilic homologues. The X-ray crystal structure of Escherichia coli bacterioferritin has also been solved to 1.9Å resolution, which was co-purified along with the recombinant AKR enzyme. This structure shows the symmetrical binding of a heme molecule on the local two-fold axis between subunits and the binding of two metal atoms to each subunit at the ferroxidase centre. These metal atoms have been identified as zinc by the anaylsis of the structure and X-ray data and confirmed by microPIXE experiments. For the first time the heme has been shown to be linked to the internal and external environments via a cluster of waters positioned above the heme molecule. This information has provided a greater insight into the function and mechanism of bacterioferritin. 572.7
4	Alcohol dehydrogenases from the thermophile Geobacillus thermoglucosidasius Williams, Luke January 2016 (has links) This is an investigation into alcohol dehydrogenases (ADHs) from Geobacillus thermoglucosidasius. Eighteen ADHs have been studied, with seven taken for closer inspection. Characterisation was carried out to determine the industrial significance of these enzymes, starting with the substrate scope of the ADHs. The key results obtained are as follows: ADH A is the alcohol dehydrogenase domain of the bifunctional ADHE enzyme (Extance, 2012; Extance et al., 2013). It has been determined that the substrate scope, whilst restricted to linear aliphatic aldehydes, extends at least to dodecanal. Also, with a specificity constant of 167 mM-1 min-1 it appears that ADH A could prefer butanal to shorter-chain aldehydes such as ethanal and propanal with specificity constants of 38 mM-1 min-1 and 35 mM-1 min-1, respectively. Thus ADH A may have a preference for longer aldehydes than previously believed due to its native role in the production of ethanol from acetyl-coA. ADH B was previously investigated for its potential role in the production of butanol. Here it was confirmed as an NADH-dependent ADH, with a substrate scope limited to five carbon length substrates and smaller, with residual activity with C6 substrates. ADH B demonstrated activity with ethyl 4-chloroacetoacetate, an intermediate in the production of statins. Further, an estimated half-life whilst stored at 4°C of 770 days; retention of 86% activity with 10vol% ethyl acetate and 92% activity with 10vol% acetonitrile; and a specific activity of 27 U mg-1 with 3M 2-butanone are all indications that ADH B is a potentially useful enzyme for industry. The last enzyme to be previously investigated was ADH C, which in this work was confirmed to be an acetoin reductase with a very small substrate scope exclusively based around the acetoin motif, and therefore no further work was conducted. ADH D and ADH F both have broad substrate scopes including the industrially-relevant substrates, 5-norbornene-2-carboxaldehyde, 1-phenyl-1,2-propanedione, ethyl 4-chloroacetoacetate and ethyl-2-oxo-4-phenylbutyrate. ADH D is an NADPH-dependent enzyme whereas ADH F can utilise both NADH and NADPH. Both enzymes are annotated as aldo-keto reductases, which is further indicated by multiple sequence alignment with the most similar available protein sequences and crystal structures. Thus, these two enzymes are the first aldo-keto reductases to be examined from moderate thermophiles, and are tentatively assigned in the AKR family as AKR6D1 and AKR5G4 respectively. ADH D has a very low KM (≤0.1 μM) with NADPH, giving a specificity constant of 2,800,000 mM-1 min-1, substantially higher than any other noted. ADH D showed >80% activity from pH 5.0 - 8.0. The enzyme was resistant to solvents DMSO (at 5 vol%) and ethyl acetate, acetonitrile and cyclopentyl methyl ether (at 20vol%). ADH F had the broadest substrate scope of any ADH tested, with 1-phenyl-1,2-propanedione the most preferred substrate with a KM of 0.010 mM and a specificity constant of 54,000 mM-1 min-1. It greatly preferred sodium phosphate at pH 7.0, as almost any deviation resulted in a substantial loss of activity. Activity of ≥70% was recorded in 5vol% DMSO, ethyl acetate, acetonitrile, cyclopentyl methyl ether and 50vol% hexane . Both ADH D and F have optimal activities at 70 °C and both may have application in the biotechnology industry for the production of pharmaceutical intermediates and other high value chemicals. ADH E acts solely as an aldehyde reductase, with Vmax using NADH of 74, 331, 320 and 281 U mg-1 for methanal, ethanal, propanal and butanal, respectively. Activity with NADPH was limited (< 1% compared with NADH). Activity was also noted with higher aldehydes such as octanal and furfural. ADH G is an NADPH-dependent ADH utilizing aldehydes only. It has an optimal temperature of 60°C with a half-life of under two hours at that temperature. In conclusion, this thesis reports a feasibility study into the potential industrial use of specific enzymes for a variety of purposes ranging from the production of pharmaceutical intermediates to bioremediation. ADHs D and F are most likely to have use in the biotechnology industry, and ADHs B and E may be suitable for cofactor regeneration. ADH E may additionally be useful in the bioremediation industry. In addition, the anticipated biological significance of these enzymes is described. 572
5	Chicken lysine [alpha]-ketoglutarate reductase (LKR) in different tissues and effects of graded levels of dietary lysine on LKR and lysine oxidation Manangi, Megharaja K. January 2000 (has links) Thesis (M.S.)--West Virginia University, 2000. / Title from document title page. Document formatted into pages; contains viii, 92 p. : ill. Vita. Includes abstract. Includes bibliographical references.
6	Role of α-Keto Acids In Cyanide Detoxification and Assimilation by Pseudomonas Bacteria Pan, Guangliang 12 1900 (has links) Cyanide was rapidly removed when added to culture supernatants of seven different Pseudomonas. The ability to remove cyanide was correlated with the accumulation of α-keto acids (pyruvate and α-ketoglutarate). These compounds react with cyanide forming less toxic cyanohydrins, thus conferring a mechanism for bacterial cyanide tolerance. When added to growth media the α-keto acids were shown also to serve as effective cyanide antagonists. While all bacteria tested accumulated α-keto acids, only those capable of utilizing cyanide as a nutritional nitrogen source were able to metabolize cyanohydrins. In P. fluorescens NCIMB 11764, the same enzyme (cyanide oxygenase) shown previously to be involved in cyanide metabolism appears responsible for cyanohydrin transformation. Keto acid excretion is believed to represent a new mechanism of bacterial cyanide detoxification with further enzymatic metabolism of the cyanohydrins helping to explain how cyanide can satisfy the nitrogen requirement in cyanide-utilizing bacteria. bacteria α-keto acids cyanide tolerance Pseudomonas. Cyanides.
7	Effects of A Ketone-Caffeine Supplement On Cycling and Cognitive Performance in Chronic Keto-Adapted Participants Bowling, Madison Lee, Bowling 04 September 2018 (has links) No description available. Kinesiology Nutrition Physiology Keto-Adapted performance
8	A Study to Investigate the Cognitive Changes that Occur Following Keto-Adaptation and Resistance Training in Healthy Adults Hardesty, Vincent H. 04 September 2018 (has links) No description available. Kinesiology Health Sciences Nutrition keto ketogenic cognition brain ketogenic diet exercise strength cognitive performance resistance training strength training keto-adaptation
9	Synthesis of Diverse Polyfunctional Amides as Precursors to Potentially Interesting Peptidomimetics / Synthese von verschiedenen mehrfunktionalen Amiden als Vorläufer zu potentiell interessanten Peptidomimetiken Osipova, Anna 06 November 2006 (has links) No description available. 540 Chemie Mathematics and Computer Science Ugi-Mehrkomponentenreaktion Cyclopropylisonitrile 3-Ketoamide α-Ketoamide Ugi multicomponent reaction cyclopropaneisonitrile 3-keto amide α keto amide 35.50 35.55 600 650
10	Towards the Synthesis of Magnesidin Pingali, Subramanya 04 August 2011 (has links) Magnesidin is a magnesium chelate of the 3-hexanoyl and 3-octanoyl tetramic acid derivatives isolated from Psuedomonas magensiorubra. Its activity against grampositive bacteria was found to be a specific target for Gingivitis, a dental plaque.Although the synthesis of magnesidin has been reported earlier, it was not reproducible. The highly polar nature and it’s ability to exhibit tautomerization makes their chemical behavior complex and difficult to predict its structure. A variety of reactions and an in depth understanding of the chemical structure is necessary to attain the synthesis of these compounds. This dissertation focuses on addressing the attempts towards the synthesis of Magnesidin by identifying the important intermediates necessary for the synthesis as β- keto esters, α,β-unsaturated amino esters. The focus of the work has been addressed by developing a TAG molecule approach, which is similar to the concept of solid phase synthesis except for the fact that the TAG molecule can be identified under UV and also can be detected using various spectroscopic techniques. Microwave synthesis has been explored and applied in to the synthesis of benzyl mono and di bromination, 1,3- benzodioxoles have been established. The benzyl mono bromination is applied to synthesize the TAG molecule, which is then applied in developing a method of synthesis for β-keto esters. The azide approach was used to synthesize the α,β- unsaturated amides, which are another essential class of compounds in the synthesis of magnesidin. Chemistry

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