Fiona C. Gray scite author profile

Eukaryotic ribosome biogenesis is a complex dynamic process which requires the action of numerous ribosome assembly factors. Among them, the eukaryotic Rio protein family members (Rio1, Rio2 and Rio3) belong to an ancient conserved atypical protein kinase/ ATPase family required for the maturation of the small ribosomal subunit (SSU). Recent structure–function analyses suggested an ATPase-dependent role of the Rio proteins to regulate their dynamic association with the nascent pre-SSU. However, the evolutionary origin of this feature and the detailed molecular mechanism that allows controlled activation of the catalytic activity remained to be determined. In this work we provide functional evidence showing a conserved role of the archaeal Rio proteins for the synthesis of the SSU in archaea. Moreover, we unravel a conserved RNA-dependent regulation of the Rio ATPases, which in the case of Rio2 involves, at least, helix 30 of the SSU rRNA and the P-loop lysine within the shared RIO domain. Together, our study suggests a ribosomal RNA-mediated regulatory mechanism enabling the appropriate stimulation of Rio2 catalytic activity and subsequent release of Rio2 from the nascent pre-40S particle. Based on our findings we propose a unified release mechanism for the Rio proteins.

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ATP‐ and NAD⁺‐dependent DNA ligases share an essential function in the halophilic archaeon Haloferax volcanii

Zhao

Gray

MacNeill

2005

Molecular Microbiology

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SummaryDNA ligases join the ends of DNA molecules during replication, repair and recombination. ATP-dependent ligases are found predominantly in the eukarya and archaea whereas NAD + + + + -dependent DNA ligases are found only in the eubacteria and in entomopoxviruses. Using the genetically tractable halophile Haloferax volcanii as a model system, we describe the first genetic analysis of archaeal DNA ligase function. We show that the Hfx. volcanii ATP-dependent DNA ligase family member, LigA, is non-essential for cell viability, raising the question of how DNA strands are joined in its absence. We show that Hfx. volcanii also encodes an NAD + + + + -dependent DNA ligase family member, LigN, the first such enzyme to be identified in the archaea, and present phylogenetic analysis indicating that the gene encoding this protein has been acquired by lateral gene transfer (LGT) from eubacteria. As with LigA, we show that LigN is also non-essential for cell viability. Simultaneous inactivation of both proteins is lethal, however, indicating that they now share an essential function. Thus the LigN protein acquired by LGT appears to have been co-opted as a back-up for LigA function, perhaps to provide additional ligase activity under conditions of high genotoxic stress.

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Precise nucleosome positioning in the promoter of the chickenβ^Aglobin gene

1988

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Histone octamers were reconstituted onto 5' end-labelled DNA fragments derived from the promoter region of the chicken beta A globin gene. The location of the reconstituted histone octamer with respect to the DNA sequence of each fragment was assessed by Exonuclease III digestion of purified nucleosome monomers. By this approach we have found a strong preference for histone octamers to be positioned over nucleotides -206 to -62 relative to the gene cap site. This stretch of DNA contains all those 5' beta globin sequences which, by DNase footprinting, bind specific protein factors and incorporates three promoter consensus sequence motifs. The upstream terminal 32 base pairs of this DNA segment contains the binding sites for the erythrocyte specific G-string binding protein and transcription factor Spl and appears to be relatively weakly bound to the histone octamer.

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Fiona C. Gray

Insights into the evolutionary conserved regulation of Rio ATPase activity

ATP‐ and NAD⁺‐dependent DNA ligases share an essential function in the halophilic archaeon Haloferax volcanii

Precise nucleosome positioning in the promoter of the chickenβ^Aglobin gene

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Fiona C. Gray

Insights into the evolutionary conserved regulation of Rio ATPase activity

ATP‐ and NAD+‐dependent DNA ligases share an essential function in the halophilic archaeon Haloferax volcanii

Precise nucleosome positioning in the promoter of the chickenβAglobin gene

Contact Info

Product

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ATP‐ and NAD⁺‐dependent DNA ligases share an essential function in the halophilic archaeon Haloferax volcanii

Precise nucleosome positioning in the promoter of the chickenβ^Aglobin gene