Affinity resins containing enzymatically resistant mRNA cap analogs—a new tool for the analysis of cap-binding proteins

  1. Jacek Jemielity1,4
  1. 1Division of Biophysics, Institute of Experimental Physics, Faculty of Physics, University of Warsaw, 02-089 Warsaw, Poland
  2. 2Institute of Genetics and Biotechnology, Faculty of Biology, University of Warsaw, 02-106 Warsaw, Poland
  3. 3College of Inter-Faculty Individual Studies in Mathematics and Natural Sciences, University of Warsaw, 02-089 Warsaw, Poland

    Abstract

    Cap-binding proteins have been routinely isolated using m7GTP-Sepharose; however, this resin is inefficient for proteins such as DcpS (scavenger decapping enzyme), which interacts not only with the 7-methylguanosine, but also with the second cap base. In addition, DcpS purification may be hindered by the reduced resin capacity due to the ability of DcpS to hydrolyze m7GTP. Here, we report the synthesis of new affinity resins, m7GpCH2pp- and m7GpCH2ppA-Sepharoses, with attached cap analogs resistant to hydrolysis by DcpS. Biochemical tests showed that these matrices, as well as a hydrolyzable m7GpppA-Sepharose, bind recombinant mouse eIF4E(28-217) specifically and at high capacity. In addition, purification of cap-binding proteins from yeast extracts confirmed the presence of all expected cap-binding proteins, including DcpS in the case of m7GpCH2pp- and m7GpCH2ppA-Sepharoses. In contrast, binding studies in vitro demonstrated that recombinant human DcpS efficiently bound only m7GpCH2ppA-Sepharose. Our data prove the applicability of these novel resins, especially m7GpCH2ppA-Sepharose, in biochemical studies such as the isolation and identification of cap-binding proteins from different organisms.

    Keywords

    Footnotes

    • Received December 22, 2011.
    • Accepted April 12, 2012.
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