(PDF) Mutations That Bypass tRNA Binding Activate the

Mutations That Bypass tRNA Binding Activate the Intrinsically Defective Kinase Domain in GCN2

Genes and Development - United States

doi 10.1101/gad.979402

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Date

May 15, 2002

Authors

H. Qiu

Publisher

Cold Spring Harbor Laboratory

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Mutations That Bypass tRNA Binding Activate the Intrinsically Defective Kinase Domain in GCN2

Genes and Development - United States

doi 10.1101/gad.979402

Full Text

Abstract

Categories

Date

Authors

Publisher

Related search

The tRNA-binding Moiety in GCN2 Contains a Dimerization Domain That Interacts With the Kinase Domain and Is Required for tRNA Binding and Kinase Activation

Interaction Between the tRNA-Binding and C-Terminal Domains of Yeast Gcn2 Regulates Kinase Activity in Vivo

Multicopy tRNA Genes Functionally Suppress Mutations in Yeast eIF-2 Alpha Kinase GCN2: Evidence for Separate Pathways Coupling GCN4 Expression to Unchanged tRNA.

Serine 577 Is Phosphorylated and Negatively Affects the tRNA Binding and eIF2α Kinase Activities of GCN2

Transmembrane and Juxtamembrane Domain Mutations Activate HER2

Mutations in the Double-Stranded RNA-activated Protein Kinase Insert Region That Uncouple Catalysis From eIF2α Binding

Mutations That Inactivate a Yeast Transcriptional Regulatory Protein Cluster in an Evolutionarily Conserved DNA Binding Domain.

Characterization of the IκB-kinase NEMO Binding Domain

The Large Intracellular Loop of hZIP4 Is an Intrinsically Disordered Zinc Binding Domain