The crystal structure of an aliphatic amidase from Geobacillus pallidus RAPc8

 

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dc.contributor.advisor Sewell, Bryan Trevor en_ZA
dc.contributor.advisor Sayed, Muhamed en_ZA
dc.contributor.author Kimani, Serah en_ZA
dc.date.accessioned 2014-10-29T10:05:06Z
dc.date.available 2014-10-29T10:05:06Z
dc.date.issued 2007 en_ZA
dc.identifier.citation Kimani, S. 2007. The crystal structure of an aliphatic amidase from Geobacillus pallidus RAPc8. University of Cape Town. en_ZA
dc.identifier.uri http://hdl.handle.net/11427/8908
dc.description Includes bibliographical references (leaves 123-136). en_ZA
dc.description.abstract Amidases are a group of carbon-nitrogen hydrolysing enzymes that catalyze the conversion of amides to corresponding carboxylic acids and ammonia. These enzymes are of great interest in synthetic industries where they are used for mass production of acidic products. Aliphatic amidase from Geobacillus pallidus RAPcS (RAPcS amidase), which belongs to the nitrilase superfamily of enzymes, has recently been characterised biochemically. It shows both amide hydrolysis and acyl transfer activities, and also exhibits stereo selectivity for some enantiomeric substrates. This enzyme can therefore be exploited in large-scale production of enantio-pure compounds. Structural characterization of this amidase would yield insights into the basis of this substrate selectivity and activity. This would inform future experiments that aims at modifying this enzyme to alter its substrate specificity. This work presents structural characterization of RAPcS amidase. Gel filtration chromatography and electron microscopic analyses provided useful information on the quaternary structure of RAPcS amidase. Crystals were grown, and an X-ray diffraction dataset to 1.9 Å collected using an in-house X-ray source. The space group of this data was determined to be primitive cubic P4₂32, and the structure was solved by molecular replacement using the backbone of the hypothetical protein PH0642 from Pyrococcus horikoshii (PDB ID, Ij31) that had all non-identical side chains substituted with alanines, as a search probe. The molecular replacement rotational and translational searches were performed using PHASER. The model was rebuilt with PHENIX before refinement using REFMAC5. The final model was of high quality with minimal errors. RAPcS amidase is homohexameric in solution and has a four-layer α-β-β-α structural fold that highly resembles nitrilase superfamily enzymes. It has an extended C-terminal tail that is essential for strengthening the interacting dimer interfaces by participating in domain swapping. The active site pocket has Glu, Lys, Cys catalytic triad that is conserved in the nitrilase superfamily. The substrate binding pocket is small in size, explaining the specificity of this enzyme for short aliphatic amides. These findings have made steps towards understanding the catalytic mechanism, and the basis for substrate specificity in this enzyme. It has also provided useful information on the overall structure, as well as the structure of the active site, not only for RAPcS amidase but also for related enzymes, which will form the basis for designing future structural characterization work in the nitrilase-related amidases. en_ZA
dc.language.iso eng en_ZA
dc.subject.other Structural Biology en_ZA
dc.title The crystal structure of an aliphatic amidase from Geobacillus pallidus RAPc8 en_ZA
dc.type Thesis / Dissertation en_ZA
uct.type.publication Research en_ZA
uct.type.resource Thesis en_ZA
dc.publisher.institution University of Cape Town
dc.publisher.faculty Faculty of Science en_ZA
dc.publisher.department Department of Molecular and Cell Biology en_ZA
dc.type.qualificationlevel Masters en_ZA
dc.type.qualificationname MSc en_ZA
uct.type.filetype Text
uct.type.filetype Image


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