Site-specific modification and RNA crosslinking of the RNA-binding domain of PKR

doi:10.1093/nar/28.9.1899

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Nucleic Acids Research, 2000, Vol. 28, No. 9 1899-1905
© 2000 Oxford University Press

Site-specific modification and RNA crosslinking of the RNA-binding domain of PKR

Richard J. Spanggord and Peter A. Beal^*

Department of Chemistry, University of Utah, 315 South 1400 East, Salt Lake City, UT 84112-0850, USA

RNA-dependent protein kinase (PKR) is an interferon-induced,RNA-activated enzyme that phosphorylates and inhibits thefunction of the translation initiation factor eIF-2. PKR isactivated in vitro by binding RNA molecules with extensive duplexstructure. To further define the nature of the RNA regulationof PKR, we have prepared and characterized site-specificallymodified proteins consisting of the PKR 20 kDa RNA-binding domain(RBD). Here we show that the two cysteines found naturally inthis domain can be altered by site-directed mutagenesis withoutloss of RNA binding affinity or the RNA-regulated kinase activity.Introduction of cysteine residues at other sites in the PKRRBD allows for site-specific modification with thiol-selectivereagents. PKR RBD mutants reacted selectively with a maleimideto introduce a photoactivatable crosslinking aryl azideat three different positions in the protein. RNA crosslinkingefficiency was found to be dependent on the amino acid modified,suggesting differences in access to the RNA from these positionsin the protein. One of the amino acid modifications that ledto crosslinking of the RNA is located at a residue known tobe an autophosphorylation site, suggesting that autophosphorylationat this site could influence the RNA binding properties of PKR.The PKR RBD conjugates described here and other similar reagentsprepared via these methods are applicable to future studiesof PKR–RNA complexes using techniques such as photocrosslinking,fluorescence resonance energy transfer and affinity cleaving.

^* To whom correspondence should be addressed. Tel: +1 801 5859719; Fax: +1 801 581 8433; Email: beal@chemistry.chem.utah.edu

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