THE DETECTION OF SHORT-LIVED REACTION INTERMEDIATES IN SOLUTION, CHARACTERIZATION OF METAL COMPLEXES, AND THE CONFORMATIONAL CHANGE OF 1-BROMOPROPANE UPON BINDING TO ΑLPHA-CYCLODEXTRIN

Victoria Boulos (14228024)

07 December 2022

<p>  </p> <p>The development of a novel technique employing the use of a linear quadrupole ion trap mass spectrometer coupled to a Nd:YAG laser and a home-built fast reagent-mixing apparatus is detailed and used to detect the short-lived tetrahedral reaction intermediate of the reaction of acetyl chloride with ethanol in microdroplets. Additionally, tandem and high-resolution mass spectrometry is used to characterize potential precursors for solution-processed metal selenide semiconductors in order to determine a synthetic route to sulfur-free thin films. Lastly, Raman MCR (multivariate curve resolution) spectroscopy is used to study the binding-induced conformational change of 1-bromopropane upon binding to α-cyclodextrin as a model system to examine guest conformational changes upon binding to a host molecule.</p>

Analytical spectrometry

laser desorption ionization MS

tetrahedral intermediate

Bromopropane

Alpha-cyclodextrin

metal selenide

Structural, Kinetic and Mutational Analysis of Two Bacterial Carboxylesterases

Liu, Ping

04 August 2007

The crystal structures of two thermostable carboxylesterase Est30 and Est55 from Geobacillus stearothermophilus were determined to help understand their functions and applications in industry or medicine. The crystal structure of Est30 was determined at 1.63 Å resolution by the multiple anomalous dispersion method. The two-domain Est30 structure showed a large domain with a modified alpha/beta hydrolase core including a seven, rather than an eight-stranded beta sheet, and a smaller cap domain comprising three alpha helices. A 100 Da tetrahedral ligand, propyl acetate, was observed to be covalently bound to the side chain of Ser94 in the catalytic triad. This ligand complex represents the first tetrahedral intermediate in the reaction mechanism. Therefore, this Est30 crystal structure will help understand the mode of action of all enzymes in the serine hydrolase superfamily. Est55 is a bacterial homologue of the mammalian carboxylesterases involved in hydrolysis and detoxification of numerous peptides and drugs and in prodrug activation. Est55 crystals were grown at pH 6.2 and pH 6.8 and the structures were determined at resolutions of 2.0 and 1.58 Å respectively. Est55 folds into three domains, a catalytic domain, an α/β domain and a regulatory domain. This structure is in an inactive form; the side chain of His409, one of the catalytic triad residues, is pointing away from the active site. Moreover, the adjacent Cys408 is triply oxidized and lies in the oxyanion hole, which would block the entry of substrate to its binding site. This structure suggested a self-inactivation mechanism, however, Cys408 is not essential for enzyme activity. Mutation of Cys408 showed that hydrophobic side chains at this position were favorable, while polar serine was unfavorable for enzyme activity. Both Est30 and Est55 were shown to hydrolyze the prodrug CPT-11 into the active form SN-38. Therefore, Est30 and Est55 are potential candidates for use with irinotecan in cancer therapy. The catalytic efficiency (kcat/Km) of Est30 is about 10-fold lower than that of Est55. The effects of the Cys408 substitutions on Est55 activity differed for the two substrates, p-NP butyrate and CPT-11. Mutant C408V may provide a more stable form of Est55.

thermostable carboxylesterase

crystal structure

cancer gene therapy

prodrug activation

CPT-11

reaction mechanism

alpha/beta hydrolase

tetrahedral intermediate

multiple anomalous dispersion

Geobacillus stearothermophilus

Biology, general

Compréhension de l'énantiosélectivité de la lipase B de Candida antarctica : étude par modélisation moléculaire et expérimentation / Comprehensive study of Candida antarctica lipase B enantioselectivity : using experimental and molecular modeling approaches

Chaput, Ludovic

28 September 2012

La lipase B de Candida antarctica (CALB) est un enzyme présentant des propriétés énantiosélectives très intéressantes pour l’obtention de molécules énantio pures par dédoublement cinétique de mélanges racémiques,molécules utilisées comme synthons dans l’industrie pharmaceutique. En effet, le principe actif de nombreux médicaments est efficace sous une forme énantio pure, l’autre forme chirale pouvant se révéler délétère pour l’organisme.Les travaux de la thèse s’intéressent à mieux comprendre l’origine de l’énantiosélectivité de la lipase B de Candida antarctica, en particulier pour la résolution d’alcools secondaires par des réactions de transestérification.Nous utilisons pour la première fois la méthode de la perturbation de l’énergie libre pour estimer la différence d’énergie libre entre les intermédiaires tétraédriques obtenus avec les formes R et S d’alcools énantiomères pour une série d’alcools secondaires, dans le but de prédire in silico l’énantiosélectivité de la CALB. Les paramètres cinétiques apparents d’une réaction avec deux alcools substrats énantiopurs sont expérimentalement déterminés et permettent de définir la contribution respective du Km et du kcat de chaque énantiomère pour la définition de l’énantiosélectivité. L’étude expérimentale de l’effet d’empreinte par des molécules co-substrats est réalisée,ainsi qu’une étude par modélisation moléculaire de l’effet d’empreinte par le premier ester substrat de la réaction qui pourrait modifier la conformation du site actif de la CALB. La troisième partie porte sur l’étude de la CALB et de trois variants (T42V, S47A et T42V/S47A) chez lesquels les acides aminés dans la poche stéréospécifiques ont mutés. T42V et S47A permettent d’obtenir une augmentation de l’énantiosélectivité. L’étude propose une étude détaillée de la conformation du site actif à partir de simulations de trajectoires de dynamique moléculaire / The lipase B from Candida antarctica is an enzyme displaying enantioselective properties which are interesting to obtain enantio pure compounds by kinetic resolution of racemic mixtures, which are used as pharmaceutical intermediates and fine chemicals. Indeed, for most of the drugs, only one of the two chiral formsis efficient as bioactive compound, whereas the other chiral form may display deleterious effects. Present work concerns the understanding of the origin of Candida antarctica lipase B enantioselectivity, and more especially in case of the resolution of secondary alcohols by transesterification. We used, for the first time, the free energy perturbation method to evaluate the free energy difference between tetrahedral intermediates with R and S alcohol enantiomers for a series of secondary alcohols in order to predict in silico enantiomeric ratio of CALB-catalyzed reactions. The apparent kinetic parameters were experimentally determined for two enantio pure substrates and allow to evalute the relative contribution of both Km and kcat for R and S enantiomers in the enantiomeric ratio of CALB-catalyzed reactions. Experimental study of imprinting effect hypothesis by co-substrate molecules was done. Molecular modeling studies of imprinting effect hypothesis were performed, in which the first substrate ester of the reaction could mould the active site. At least, the third part of this thesis concerns the study of wild-type CALB and three different variants (T42V and S47A which allow to increase enantioselectivity and T42/S47A) of CALB by molecular modeling. A detailed study of the conformation of the stereo specificity pocket in the active site is presented, based on molecular dynamics simulations.

Lipase B de Candida antarctica

Énantiosélectivité

Biocatalyse

Modélisation moléculaire

Intermédiaire tétraédrique

Perturbation de l’énergie libre

Effet d’empreinte

Mutant

T42V

S47A

T42V/S47A

Lipase B from Candida antarctica

Enantioselectivity

Biocatalysis

Molecular modeling

Tetrahedral intermediate

Free energy perturbation

Imprinting effect

Mutant

T42V

S47A

T42V/S47A