Crystal structure of the intact archaeal translation initiation factor 2 demonstrates very high conformational flexibility in the alpha- and beta-subunits
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Structure of the mammalian ribosomal 43S preinitiation complex bound to the scanning factor DHX29'Ribozoomin'--translation initiation from the perspective of the ribosome-bound eukaryotic initiation factors (eIFs)Structure of the ternary initiation complex aIF2-GDPNP-methionylated initiator tRNAeIF2B is a decameric guanine nucleotide exchange factor with a γ2ε2 tetrameric core.eIF2γ mutation that disrupts eIF2 complex integrity links intellectual disability to impaired translation initiation.eIF2 interactions with initiator tRNA and eIF2B are regulated by post-translational modifications and conformational dynamicsCryo-EM study of start codon selection during archaeal translation initiationArchaic chaos: intrinsically disordered proteins in Archaea.The Cryo-EM structure of a complete 30S translation initiation complex from Escherichia coliMolecular view of 43 S complex formation and start site selection in eukaryotic translation initiationThe mechanism of eukaryotic translation initiation: new insights and challengesStructural changes enable start codon recognition by the eukaryotic translation initiation complex.Molecular mechanism of scanning and start codon selection in eukaryotes.Initiation factor eIF2γ promotes eIF2-GTP-Met-tRNAi(Met) ternary complex binding to the 40S ribosome.Conformational Differences between Open and Closed States of the Eukaryotic Translation Initiation Complex.OLA1 regulates protein synthesis and integrated stress response by inhibiting eIF2 ternary complex formation.Roles of yeast eIF2α and eIF2β subunits in the binding of the initiator methionyl-tRNA.Eukaryotic and archaeal translation initiation factor 2: a heterotrimeric tRNA carrier.Protein phosphatase PP1/GLC7 interaction domain in yeast eIF2γ bypasses targeting subunit requirement for eIF2α dephosphorylationTranslation initiation in Archaea: conserved and domain-specific features.Atypical protein kinases of the RIO family in archaea.Back to translation: removal of aIF2 from the 5'-end of mRNAs by translation recovery factor in the crenarchaeon Sulfolobus solfataricus.Ribosomal protein S5e is implicated in translation initiation through its interaction with the N-terminal domain of initiation factor eIF2α.Role of aIF1 in Pyrococcus abyssi translation initiation
P2860
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P2860
Crystal structure of the intact archaeal translation initiation factor 2 demonstrates very high conformational flexibility in the alpha- and beta-subunits
description
2008 nî lūn-bûn
@nan
2008 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Crystal structure of the intac ...... n the alpha- and beta-subunits
@ast
Crystal structure of the intac ...... n the alpha- and beta-subunits
@en
Crystal structure of the intac ...... n the alpha- and beta-subunits
@nl
type
label
Crystal structure of the intac ...... n the alpha- and beta-subunits
@ast
Crystal structure of the intac ...... n the alpha- and beta-subunits
@en
Crystal structure of the intac ...... n the alpha- and beta-subunits
@nl
prefLabel
Crystal structure of the intac ...... n the alpha- and beta-subunits
@ast
Crystal structure of the intac ...... n the alpha- and beta-subunits
@en
Crystal structure of the intac ...... n the alpha- and beta-subunits
@nl
P2093
P50
P3181
P1476
Crystal structure of the intac ...... n the alpha- and beta-subunits
@en
P2093
Alexei Nikulin
Oleg Nikonov
Roman Fedorov
Stanislav Nikonov
P304
P3181
P356
10.1016/J.JMB.2008.07.039
P407
P577
2008-10-10T00:00:00Z