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Dissection of the dislocation pathway for type I membrane proteins with a new small molecule inhibitor, eeyarestatin.

The use of eeyarestatin I allows the definition of a new intermediate in dislocation, and both compounds stabilize these dislocation substrates in the ER membrane, without preventing proteasomal turnover of cytosolic substrates.
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Inhibition of L-selectin-mediated Leukocyte Rolling by Synthetic Glycoprotein Mimics*

The data indicate that multivalent ligands are far more effective inhibitors of L-selectin-mediated rolling than their monovalent counterparts and that the inhibitory activities are dependent on the specific sulfation pattern of the recognition epitope.
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Synthetic glycoprotein mimics inhibit L-selectin-mediated rolling and promote L-selectin shedding.

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Small-molecule screening: it takes a village...

  • E. Gordon
  • Medicine
    ACS Chemical Biology
  • 23 January 2007
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Intraductal therapy of ductal carcinoma in situ: a presurgery study.

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Synthetic ligands point to cell surface strategies

A new class of multivalent ligands, ‘neoglycopolymers’, are created, designed to promote the proteolytic cleavage of a cell adhesion molecule involved in the inflammatory response, L-selectin, which suggest new strategies to generate anti-inflammatory agents and regulate the cell surface.
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Synthesis of end-labeled multivalent ligands for exploring cell-surface-receptor-ligand interactions.

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Transforming the cell surface through proteolysis.

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Glycoprotein-inspired materials promote the proteolytic release of cell surface L-selectin.

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Solid phase synthesis of peptide vinyl sulfone and peptide epoxyketone proteasome inhibitors

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