Melissa A. Stuart scite author profile

Vertebrate glycoproteins and glycolipids are synthesized in complex biosynthetic pathways localized predominantly within membrane compartments of the secretory pathway. The enzymes that catalyze these reactions are exquisitely specific, yet few have been extensively characterized due to challenges associated with their recombinant expression as functional products. We used a modular approach to create an expression vector library encoding all known human glycosyltransferases, glycoside hydrolases, sulfotransferases, and other glycan modifying enzymes. We then expressed the enzymes as secreted catalytic domain fusion proteins in mammalian and insect cell hosts, purified and characterized a subset of the enzymes, and determined the structure of one, the sialyltransferase ST6GALNAC2. Many enzymes were produced at high yields and similar levels in both hosts, but individual protein expression levels varied widely. This expression vector library will be a transformative resource for recombinant enzyme production, broadly enabling structure-function studies and expanding applications of these enzymes in glycochemistry and glycobiology.

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A Distorted Tetrahedral Metal Oxide Cluster inside an Icosahedral Carbon Cage. Synthesis, Isolation, and Structural Characterization of Sc₄(μ₃-O)₂@I_h-C₈₀

Stevenson

et al. 2008

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The remarkably large cluster Sc4(mu3-O)2 has been obtained trapped inside an Ih-C80 cage by conducting the vaporization of graphite rods doped with copper(II) nitrate and scandium(III) oxide in an electric arc under a low pressure helium atmosphere with an added flow of air. The product has been isolated by chromatography and identified by high-resolution mass spectrometry. The structure of Sc4(mu3-O)2@Ih-C80 has been determined by X-ray crystallography on a crystal of Sc4(mu3-O)2@Ih-C80.NiII(OEP).2(C6H6). The Sc4(mu3-O)2 unit consists of a distorted tetrahedron of scandium atoms with oxygen atoms bridging two of its faces. The Sc-Sc distances range from 2.946(7) to 3.379(7) A.

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Sc₂(μ₂-O) Trapped in a Fullerene Cage: The Isolation and Structural Characterization of Sc₂(μ₂-O)@C_s(6)-C₈₂and the Relevance of the Thermal and Entropic Effects in Fullerene Isomer Selection

et al. 2010

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The new endohedral fullerene, Sc(2)(mu(2)-O)@C(s)(6)-C(82), has been isolated from the carbon soot obtained by electric arc generation of fullerenes utilizing graphite rods doped with 90% Sc(2)O(3) and 10% Cu (w/w). Sc(2)(mu(2)-O)@C(s)(6)-C(82) has been characterized by single crystal X-ray diffraction, mass spectrometry, and UV/vis spectroscopy. Computational studies have shown that, among the nine isomers that follow the isolated pentagon rule (IPR) for C(82), cage 6 with C(s) symmetry is the most favorable to encapsulate the cluster at T > 1200 K. Sc(2)(mu(2)-O)@C(s)(6)-C(82) is the first example in which the relevance of the thermal and entropic contributions to the stability of the fullerene isomer has been clearly confirmed through the characterization of the X-ray crystal structure.

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Melissa A. Stuart

Expression system for structural and functional studies of human glycosylation enzymes

A Distorted Tetrahedral Metal Oxide Cluster inside an Icosahedral Carbon Cage. Synthesis, Isolation, and Structural Characterization of Sc₄(μ₃-O)₂@I_h-C₈₀

Sc₂(μ₂-O) Trapped in a Fullerene Cage: The Isolation and Structural Characterization of Sc₂(μ₂-O)@C_s(6)-C₈₂and the Relevance of the Thermal and Entropic Effects in Fullerene Isomer Selection

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Melissa A. Stuart

Expression system for structural and functional studies of human glycosylation enzymes

A Distorted Tetrahedral Metal Oxide Cluster inside an Icosahedral Carbon Cage. Synthesis, Isolation, and Structural Characterization of Sc4(μ3-O)2@Ih-C80

Sc2(μ2-O) Trapped in a Fullerene Cage: The Isolation and Structural Characterization of Sc2(μ2-O)@Cs(6)-C82and the Relevance of the Thermal and Entropic Effects in Fullerene Isomer Selection

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A Distorted Tetrahedral Metal Oxide Cluster inside an Icosahedral Carbon Cage. Synthesis, Isolation, and Structural Characterization of Sc₄(μ₃-O)₂@I_h-C₈₀

Sc₂(μ₂-O) Trapped in a Fullerene Cage: The Isolation and Structural Characterization of Sc₂(μ₂-O)@C_s(6)-C₈₂and the Relevance of the Thermal and Entropic Effects in Fullerene Isomer Selection