Clara Vu scite author profile

Clara Vu

5Publications

97Citation Statements Received

128Citation Statements Given

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126

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Loma Linda University, University of Florida

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An Inserted α/β Subdomain Shapes the Catalytic Pocket of Lactobacillus johnsonii Cinnamoyl Esterase

Lai

Stogios

et al. 2011

PLoS ONE

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BackgroundMicrobial enzymes produced in the gastrointestinal tract are primarily responsible for the release and biochemical transformation of absorbable bioactive monophenols. In the present work we described the crystal structure of LJ0536, a serine cinnamoyl esterase produced by the probiotic bacterium Lactobacillus johnsonii N6.2.Methodology/Principal FindingsWe crystallized LJ0536 in the apo form and in three substrate-bound complexes. The structure showed a canonical α/β fold characteristic of esterases, and the enzyme is dimeric. Two classical serine esterase motifs (GlyXSerXGly) can be recognized from the amino acid sequence, and the structure revealed that the catalytic triad of the enzyme is formed by Ser106, His225, and Asp197, while the other motif is non-functional. In all substrate-bound complexes, the aromatic acyl group of the ester compound was bound in the deepest part of the catalytic pocket. The binding pocket also contained an unoccupied area that could accommodate larger ligands. The structure revealed a prominent inserted α/β subdomain of 54 amino acids, from which multiple contacts to the aromatic acyl groups of the substrates are made. Inserts of this size are seen in other esterases, but the secondary structure topology of this subdomain of LJ0536 is unique to this enzyme and its closest homolog (Est1E) in the Protein Databank.ConclusionsThe binding mechanism characterized (involving the inserted α/β subdomain) clearly differentiates LJ0536 from enzymes with similar activity of a fungal origin. The structural features herein described together with the activity profile of LJ0536 suggest that this enzyme should be clustered in a new group of bacterial cinnamoyl esterases.

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Determination of <i>Francisella tularensis</i> AcpB Acid Phosphatase Substrate Preferences

Crowe

Valladares

et al. 2010

Microb Physiol

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The Francisella speciesencode 4 main acid phosphatases (Acp) that are potentially involved in pathogenesis through currently unknown mechanisms. Only 2 of these enzymes, AcpA and AcpC, have been biochemically characterized to date. In this work we describe the catalytic properties of Francisella tularensis AcpB utilizing an array of 120 phosphorylated substrates. In contrast to most acid phosphatases, the purified enzyme showed a narrow range of substrate preferences, with the highest affinity towards thiamine phosphate (Km = 150 µM). Francisella species do not possess a thiamine biosynthetic pathway even though vitamin B1 is indispensable in numerous cellular functions. Consequently, thiamine should be incorporated from the environment, in this case, from the host cell. Our results suggested that AcpB could provide the hydrolytic activity necessary to transform the nontransportable phosphorylated vitamin B1 present in tissues to a form that can be absorbed by the intracellular pathogen.

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Identification and Characterization of Feruloyl Esterases Produced by Probiotic Bacteria

Lai¹,

Vu²,

Valladares³

et al. 2012

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Crystal structure of the Lactobacillus johnsonii cinnamoyl esterase LJ0536

Stogios¹,

Lai²,

Vu³

et al. 2011

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Bimatoprost Topical

Luke

2017

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Clara Vu

An Inserted α/β Subdomain Shapes the Catalytic Pocket of Lactobacillus johnsonii Cinnamoyl Esterase

Determination of <i>Francisella tularensis</i> AcpB Acid Phosphatase Substrate Preferences

Identification and Characterization of Feruloyl Esterases Produced by Probiotic Bacteria

Crystal structure of the Lactobacillus johnsonii cinnamoyl esterase LJ0536

Bimatoprost Topical

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