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Stress-induced TRBP phosphorylation enhances its interaction with PKR to regulate cellular survival.
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The PKR activator, PACT, becomes a PKR inhibitor during HIV-1 replication.
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Heparin activates PKR by inducing dimerization.
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The use of analytical sedimentation velocity to extract thermodynamic linkage.
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Nucleoside modifications modulate activation of the protein kinase PKR in an RNA structure-specific manner.
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The hydrogen bonds between Arg423 and Glu472 and other key residues, Asp443, Ser477, and Pro489, are responsible for the formation and a different positioning of TNP-ATP and ATP within the nucleotide-binding site of Na(+)/K(+)-ATPase.
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The distinct functional properties of the nucleotide-binding domain of ATP7B, the human copper-transporting ATPase: analysis of the Wilson disease mutations E1064A, H1069Q, R1151H, and C1104F.
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Contribution of double-stranded RNA-activated protein kinase toward antiproliferative actions of heparin on vascular smooth muscle cells.
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Signal integration via PKR.
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Functional classification of interferon-stimulated genes identified using microarrays.
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Binding of double-stranded RNA to protein kinase PKR is required for dimerization and promotes critical autophosphorylation events in the activation loop.
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Modular structure of PACT: distinct domains for binding and activating PKR.
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Putting heparin into perspective: its history and the evolution of its use during percutaneous coronary interventions.
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Low-molecular-weight heparin therapy in percutaneous coronary intervention: the NICE 1 and NICE 4 trials. National Investigators Collaborating on Enoxaparin Investigators.
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A dynamically tuned double-stranded RNA binding mechanism for the activation of antiviral kinase PKR.
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