Brenton T. Smith scite author profile

Many surface proteins are anchored to the cell wall by the action of sortase enzymes, a recently discovered family of cysteine transpeptidases. As the surface proteins of human pathogens are frequently required for virulence, the sortase-mediated anchoring reaction represents a potential target for new anti-infective agents. It has been suggested that the sortase from Staphylococcus aureus (SrtA), may use a similar catalytic strategy as the papain cysteine proteases, holding its Cys 184 side chain in an active configuration through a thiolate-imidazolium ion interaction with residue His 120 . To investigate the mechanism of transpeptidation, we have synthesized a peptidyl-vinyl sulfone substrate mimic that irreversibly inhibits SrtA. Through the study of the pH dependence of SrtA inhibition and NMR, we have estimated the pK a s of the active site thiol (Cys 184 ) and imidazole (His 120 ) to be ϳ9.4 and 7.0, respectively. These measurements are inconsistent with the existence of a thiolate-imidazolium ion pair and suggest a general base catalysis mechanism during transpeptidation.

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First Asymmetric Total Synthesis of (+)-Sparteine

Smith

2002

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The discovery of fluazaindolizine: A new product for the control of plant parasitic nematodes

Lahm

Desaeger

Smith

et al. 2017

Bioorganic & Medicinal Chemistry Letters

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Asymmetric Schmidt Reaction of Hydroxyalkyl Azides with Ketones

et al. 2003

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An asymmetric equivalent of the Schmidt reaction permits stereocontrol in ring expansions of symmetrical cyclohexanones. The procedure involves the reaction of chiral 1,2- and 1,3-hydroxyalkyl azides with ketones under acid catalysis; the initial reaction affords an iminium ether that can be subsequently opened with base. A systematic study of this reaction is reported, in which ketone substrates, chiral hydroxyalkyl azides, and reaction conditions are varied. Selectivities as high as ca. 98:2 are possible for the synthesis of substituted caprolactams, with up to 1,7-stereoselection involved in the overall process. The fact that either possible migrating carbon is electronically identical provides an unusual opportunity to study a ring-expansion reaction controlled entirely by stereoelectronic factors. The mechanism of the reaction and the source of its stereoselectivity are also discussed.

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Localization and mutagenesis of the sorting signal binding site on sortase A from Staphylococcus aureus

et al. 2004

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Surface proteins in Gram-positive bacteria are anchored to the cell wall by the action of sortase enzymes. The Staphylococcus aureus sortase A (SrtA) protein anchors proteins by recognizing a cell wall sorting signal containing the amino acid sequence LPXTG. To understand how SrtA binds this sequence, we carried out NMR studies of new peptidylcyanoalkene and peptidyl-sulfhydryl inhibitors that contain the sorting signal sequence LPAT. These studies combined with amino acid mutagenesis identified a catalytically important and conserved binding surface formed by residues A118, T180, and I182. Compatible with its recently proposed role as a general base, R197 is also shown to be required for catalysis.

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Brenton T. Smith

Sortase from Staphylococcus aureus Does Not Contain a Thiolate-Imidazolium Ion Pair in Its Active Site

First Asymmetric Total Synthesis of (+)-Sparteine

The discovery of fluazaindolizine: A new product for the control of plant parasitic nematodes

Asymmetric Schmidt Reaction of Hydroxyalkyl Azides with Ketones

Localization and mutagenesis of the sorting signal binding site on sortase A from Staphylococcus aureus

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