2013
DOI: 10.1073/pnas.1302577110
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Cofactor-dependent specificity of a DEAD-box protein

Abstract: DEAD-box proteins, a large class of RNA-dependent ATPases, regulate all aspects of gene expression and RNA metabolism. They can facilitate dissociation of RNA duplexes and remodeling of RNA-protein complexes, serve as ATP-dependent RNA-binding proteins, or even anneal duplexes. These proteins have highly conserved sequence elements that are contained within two RecA-like domains; consequently, their structures are nearly identical. Furthermore, crystal structures of DEAD-box proteins with bound RNA reveal inte… Show more

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Cited by 43 publications
(67 citation statements)
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References 96 publications
(181 reference statements)
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“…Frequently the helicase core is flanked by variable N-and C-terminal extensions that might be critical for the specific function of the individual protein. DEAD-box proteins acquire substrate specificity by interaction with co-factors that target the enzymes to their place of action [110].…”
Section: Rna Helicasesmentioning
confidence: 99%
“…Frequently the helicase core is flanked by variable N-and C-terminal extensions that might be critical for the specific function of the individual protein. DEAD-box proteins acquire substrate specificity by interaction with co-factors that target the enzymes to their place of action [110].…”
Section: Rna Helicasesmentioning
confidence: 99%
“…The assembly point of Rrp7 is consistent with its cross-linking sites in helix E of ES6 and helix h26 (Lin et al 2013). In addition, Rok1 interacts with Rrp5 that assembles one step earlier (Torchet et al 1998;Young et al 2013).…”
Section: Assembly Of the Central Domain (Nucleotides 609-1144)mentioning
confidence: 99%
“…Consistent with their adjacent prerRNA binding sites, Rrp5 has been shown to directly interact with Rok1. Furthermore, Rrp5 is suggested to modulate the activity of Rok1 and to confer target specificity on the RNA helicase (Garcia et al 2012;Young et al 2013). In the case of Rrp7, cross-linking sites in ES6H3 and ES7 that are FIGURE 2.…”
Section: Structure Probing Confirms Rok1 Binding To Es6h3mentioning
confidence: 99%
“…As the Rok1 helicase contacts all three RNA sequences involved and is required for pre-ribosomal release of snR30, it may function as a key regulator of this structural rearrangement. Furthermore, both ATP-dependent unwinding and ADP-dependent annealing functions of Rok1 have been described (Garcia et al 2012;Young et al 2013), possibly implicating this helicase in formation of base-pairing interactions between ES6 and ES3 after the release of snR30 from ES6.…”
Section: Rok1 Directly Interacts With Snr30mentioning
confidence: 99%