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The relationship between structure and thermostability of a nitrile hydratase from Goebacillus pallidus RAPc8.Van Wyk, Jennifer Caroline. January 2008 (has links)
<p>The primary aims of this study were to use random mutagenesis to engineer the G. pallidus RAPc8 NHase towards improved thermostability and then to use X-ray crystallography to investigate the molecular mechanism(s) involved in the enhanced thermostability.</p>
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The relationship between structure and thermostability of a nitrile hydratase from Goebacillus pallidus RAPc8.Van Wyk, Jennifer Caroline. January 2008 (has links)
<p>The primary aims of this study were to use random mutagenesis to engineer the G. pallidus RAPc8 NHase towards improved thermostability and then to use X-ray crystallography to investigate the molecular mechanism(s) involved in the enhanced thermostability.</p>
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The preparation of lauronitrile and myristonitrileBogert, Virgil Vernon. January 1937 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1937. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 16-17).
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Some reactions of sodium phenylacetonitrile and sodium [alpha]-phenylbutyronitrile ...Aldrich, Helen Fiske, January 1935 (has links)
Part of Thesis (Ph. D.)--University of Chicago, 1933. / Lithoprinted. "Private edition, distributed by the University of Chicago Libraries, Chicago, Illinois."
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The relationship between structure and thermostability of a nitrile hydratase from Goebacillus pallidus RAPc8Van Wyk, Jennifer Caroline January 2008 (has links)
Philosophiae Doctor - PhD / Nitrile hydratases (NHases) are very important biocatalysts for the enzymatic conversion of nitriles to industrially important amides such as acrylamide and nicotinamide. An “ideal” NHase should fulfil several essential criteria including, high substrate conversion rates, being able to tolerate high substrate and product concentrations as well as being highly thermostable. The NHase used in the present study was isolated from Geobacillus pallidus RAPc8, a moderate thermophile. The primary aims of this study were to use random mutagenesis to engineer the G. pallidus RAPc8 NHase towards improved thermostability and then to use X-ray crystallography to investigate the molecular mechanism(s) involved in the enhanced thermostability. Two randomly mutated libraries were constructed using MnCl2 mediated errorprone PCR. The PCR reaction was performed using 0.05 mM and 0.10 mM MnCl2 and a biased dNTP concentration. The hydroxamic acid assay was used to screen the randomly mutated libraries for NHase mutants with enhanced thermostability. Six mutants that exhibited thermostability-enhancing mutations were isolated from the randomly mutated libraries. The thermostabilised mutants contained between 3 and 7 nucleotide changes per NHase operon. The wild-type and four thermostabilised mutant NHases (7D, 8C, 9C, 9E) were over-expressed, purified, crystallised and subjected to X-ray crystallography. The resolution of the diffraction data for the all the mutant NHases were better than the 2.4Å previously obtained for the wild-type G. pallidus NHase. The best quality data was collected for mutant
9E, which diffracted to a resolution of 1.15Å. The high quality crystal structures allowed each thermostability-enhancing mutation to be viewed in detail. As most of the NHase mutants contained multiple mutations, the crystal structures were important in correlating the observed thermostabilisation with the structural effect of
the mutations. Analysis of the X-ray crystal structures illustrated the importance of electrostatic interactions, particularly salt bridges and hydrogen bonds in enhancing the
thermostability of the mutant NHases. The difference in the free energy of activation of thermal unfolding (DDG) was used to compare the wild-type and mutant NHases thermostability. The most improved NHase, mutant 9C, was
stabilised by both a buried inter-subunit salt bridge between aR169 and bD218 and an inter-helical hydrogen bond between bK43 and bK50. The stabilisation provided by these electrostatic interactions was 7.62 kJ/mol. Mutant 8C was primarily stabilised by the introduction an electrostatic network consisting of a salt bridge between bE96 and aR28 and a hydrogen bond between bE96 and bE92. Also, an
intra-helical salt bridge between aE192 and aK195 stabilised the helix consisting of a190-196 in mutant 8C by shielding the helix backbone from solvation and preventing co-operative unfolding of the a helix. However, mutant 8C was also destabilised by a mutation that disrupted a water-mediated hydrogen bond between bD167 and bK168 at the heterotetramer interface of the enzyme. Consequently, the net stabilisation energy provided as a result of stabilising and
destabilising interactions was 6.16 kJ/mol. Mutant 7D was the only NHase mutant with only one possible thermostabilising mutation. This mutant was stabilised by 3.40 kJ/mol as the result of a water-mediated hydrogen bond between aS47 and
bE33. Similarly, a water-mediated hydrogen bond between aS23 and bS103 provided a stabilisation energy of 4.27 kJ/mol to mutant 9E. This project has shown that moderate-frequency randomly mutated libraries can yield mutants with multiple thermostabilising interactions. Also, the importance of
utilising X-ray crystallography to investigate structure-function relationships in proteins has been illustrated. / South Africa
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Direct carbonylation of aromatic nitriles using dicabalt octacarbonylGervay, Joseph Edmund January 1963 (has links)
A new method of synthesizing N-substituted phthalimidines is described. When benzonitrile was reacted with carbon monoxide containing about 0.04 volume percent of hydrogen and in the presence of dicobalt octacarbonyl and pyridine in benzene solution at 235° and 3400 p.s.i. pressure the following compounds were produced: N-benzyphthalimidine (8%), N-phenylphthalimidine (3.7%), and benzamide (3.9%). When 40 p.s.i. hydrogen was added under the same reaction conditions, the yield of N-benzylphthalimidine increased (16%). When benzonitrile was subjected to the same reaction conditions using 240 p.s.d. hydrogen and no pyridine, N-benzylphthalimidine (15%) and sym-dibenzylurea (8%) were produced.
A study on the mechanism of the ring closure process using deuterium gas revealed, that the ortho- hydrogen of the aromatic ring is not transferred directly to the unsaturated carbon-nitrogen bond in the course of the reaction.
When phenylacetonitrile was reacted with carbon monoxide and 350 p.s.i. hydrogen at 250° in the presence of dicobalt octacarbonyl the following compounds were isolated: phenacetyl- β-phenethylamine (30%), di-β-phenylethylamine (23%), di- β-phenylethylurea (3.1%) and phenylacetamide (3%).
When m-tolunitrile was reacted under similar reaction conditions with 185 p.s.i. hydrogen at 240°, N-m-xylylurea (9.5%), N,N'-di-m-xylylurea (13.5%), and m-toluamide (11.5%) were produced.
Organometallic complexes were also obtained in all the reactions described above. The infrared spectra of all the compounds obtained, and the n.m.r.. spectra of N-benzylphthalimidine and N phenylphthalimidine are described. / Science, Faculty of / Chemistry, Department of / Graduate
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A study of the Hoesch reactionLangley, Wilson Davis, Adams, Roger, January 1900 (has links)
Thesis (Ph. D.)--University of Illinois, 1922. / Vita. Caption title: Condensation of certain nitriles and various polyhydroxyphenols to form phenolic acids, by Wilson D. Langley with Roger Adams. "Reprinted from the Journal of the American Chemical Society. vol. XLVI, no.10. October, 1922."
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I. Preparation of nitriles. II. Catalytic preparation of nitriles ...Van Epps, George Dudley, January 1900 (has links)
Thesis (Ph. D.)--Johns Hopkins University, 1916. / Biographical sketch.
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Catalytic hydrogenation of nitrilesJuday, Richard Evans, January 1943 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1943. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaf [62]).
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The effect of aminoacetonitrile on the repair process in endochondral and membrane boneCarnesale, Peter G. January 1960 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1960. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 38-40).
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