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Single-stranded regions modulate conformational dynamics and ATPase activity of eIF4A to optimize 5'-UTR unwinding.


ABSTRACT: Eukaryotic translation initiation requires unwinding of secondary structures in the 5'-untranslated region of mRNA. The DEAD-box helicase eIF4A is thought to unwind structural elements in the 5'-UTR in conjunction with eIF4G and eIF4B. Both factors jointly stimulate eIF4A activities by modulation of eIF4A conformational cycling between open and closed states. Here we examine how RNA substrates modulate eIF4A activities. The RNAs fall into two classes: Short RNAs only partially stimulate the eIF4A ATPase activity, and closing is rate-limiting for the conformational cycle. By contrast, longer RNAs maximally stimulate ATP hydrolysis and promote closing of eIF4A. Strikingly, the rate constants of unwinding do not correlate with the length of a single-stranded region preceding a duplex, but reach a maximum for RNA with a single-stranded region of six nucleotides. We propose a model in which RNA substrates affect eIF4A activities by modulating the kinetic partitioning of eIF4A between futile, unproductive, and productive cycles.

SUBMITTER: Andreou AZ 

PROVIDER: S-EPMC6547412 | biostudies-literature | 2019 Jun

REPOSITORIES: biostudies-literature

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Single-stranded regions modulate conformational dynamics and ATPase activity of eIF4A to optimize 5'-UTR unwinding.

Andreou Alexandra Zoi AZ   Harms Ulf U   Klostermeier Dagmar D  

Nucleic acids research 20190601 10


Eukaryotic translation initiation requires unwinding of secondary structures in the 5'-untranslated region of mRNA. The DEAD-box helicase eIF4A is thought to unwind structural elements in the 5'-UTR in conjunction with eIF4G and eIF4B. Both factors jointly stimulate eIF4A activities by modulation of eIF4A conformational cycling between open and closed states. Here we examine how RNA substrates modulate eIF4A activities. The RNAs fall into two classes: Short RNAs only partially stimulate the eIF4  ...[more]

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