• Title of article

    Element-Coded Affinity Tags for Peptides and Proteins

  • Author/Authors

    Meares، Claude F. نويسنده , , Whetstone، Paul A. نويسنده , , Butlin، Nathaniel G. نويسنده , , Corneillie، Todd M. نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    -2
  • From page
    3
  • To page
    0
  • Abstract
    Isotope-coded affinity tags (ICAT) represent an important new tool for the analysis of complex mixtures of proteins in living systems [Aebersold, R., and Mann, M. (2003) Nature, 422, 198-207]. We envisage an alternative protein-labeling technique based on tagging with different element-coded metal chelates, which affords affinity chromatography, quantification, and identification of a tagged peptide from a complex mixture. As proof of concept, a synthetic peptide was modified at a cysteine side chain with either a carboxymethyl group or acetamidobenzyl-1,4,7,10-tetraazacyclododecane-N,Nʹ,Nʹ ʹ,Nʹ ʹʹtetraacetic acid (AcBD) chelates of terbium or yttrium. A mixture of the three modified peptides in a mole ratio of 100:1.0:0.83 carboxymethyl:AcBD-Tb:AcBD-Y was trypsinized, purified on a new affinity column that binds rare-earth DOTA chelates, and analyzed by LC-MS/MS. Chelate-tagged tryptic peptides eluted cleanly from the affinity column; the tagged peptides chromatographically coeluted during LC-MS analysis, were present in the expected ratio as indicated by MS ion intensity, and were sequence-identified by tandem mass spectrometry. DOTA-rare earth chelates have exceptional properties for use as affinity tags. They are highly polar and water-soluble. Many of the rare earth elements are naturally monoisotopic, providing a variety of simple choices for preparing mass tags. Further, the rare earths are heavy elements, whose mass defects give the masses of tagged peptides exact values not normally shared by molecules that contain only light elements.
  • Keywords
    homocysteine , Cretan Mediterranean diet , Ischaemic heart disease , folate
  • Journal title
    Bioconjugate Chemistry
  • Serial Year
    2004
  • Journal title
    Bioconjugate Chemistry
  • Record number

    103384