Role of <i>Escherichia coli</i> YbeY, a highly conserved protein, in rRNA processing

Davies, Bryan William; Köhrer, Caroline; Jacob, Asha I.; Simmons, Lyle A.; Zhu, Jianyu; Alemán, Lourdes M.; RajBhandary, Uttam L.; Walker, Graham C.

doi:10.1111/j.1365-2958.2010.07351.x

Cited by 98 publications

(224 citation statements)

References 45 publications

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“…Work in bacteria has elucidated the sequence of events in ribosome assembly and established detailed assembly maps for both ribosomal subunits (Dabbs, 1991;Talkington et al, 2005;Kaczanowska and Rydén-Aulin, 2007;Woodson, 2008;Connolly and Culver, 2009;Fournier et al, 2010). It also identified a number of auxiliary factors acting in rRNA processing and/or ribosome maturation (Davies et al, 2010;Connolly and Culver, 2013;Jacob et al, 2013). For some of these factors, homologous genes have been identified in the nuclear genomes of plants and algae, but very few of these have been studied functionally (Bang et al, 2012), and for most of the encoded proteins, their site of action Figure 2.…”

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confidence: 99%

RBF1, a Plant Homolog of the Bacterial Ribosome-Binding Factor RbfA, Acts in Processing of the Chloroplast 16S Ribosomal RNA

et al. 2013

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ORCID IDs: 0000-0002-2594-509X (S.S.M.); 0000-0001-7502-6940 (R.B.).Plastids (chloroplasts) possess 70S ribosomes that are very similar in structure and function to the ribosomes of their bacterial ancestors. While most components of the bacterial ribosome (ribosomal RNAs [rRNAs] and ribosomal proteins) are well conserved in the plastid ribosome, little is known about the factors mediating the biogenesis of plastid ribosomes. Here, we have investigated a putative homolog of the bacterial RbfA (for ribosome-binding factor A) protein that was identified as a coldshock protein and an auxiliary factor acting in the 59 maturation of the 16S rRNA. The unicellular green alga Chlamydomonas reinhardtii and the vascular plant Arabidopsis (Arabidopsis thaliana) both encode a single RbfA-like protein in their nuclear genomes. By generating specific antibodies against this protein, we show that the plant RbfA-like protein functions exclusively in the plastid, where it is associated with thylakoid membranes. Analysis of mutants for the corresponding gene (termed RBF1) reveals that the gene function is essential for photoautotrophic growth. Weak mutant alleles display reduced levels of plastid ribosomes, a specific depletion in 30S ribosomal subunits, and reduced activity of plastid protein biosynthesis. Our data suggest that, while the function in ribosome maturation and 16S rRNA 59 end processing is conserved, the RBF1 protein has assumed an additional role in 39 end processing. Together with the apparent absence of a homologous protein from plant mitochondria, our findings illustrate that the assembly process of the 70S ribosome is not strictly conserved and has undergone some modifications during organelle evolution.

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RBF1, a Plant Homolog of the Bacterial Ribosome-Binding Factor RbfA, Acts in Processing of the Chloroplast 16S Ribosomal RNA

et al. 2013

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“…In a very recent study (23), one protein of previously unknown function, YbeY, known to participate in 3Ј processing of 16S rRNA (24), was shown to be an endoribonuclease. As a consequence, it was proposed that YbeY is responsible for removal of most of the 33 extra 3Ј-residues, although no direct evidence for this assertion was presented (23).…”

Section: Discussionmentioning

confidence: 99%

“…Based on our data, we believe it is unlikely that YbeY directly removes extra 3Ј-nucleotides inasmuch as all 33 residues remain when the exoribonucleases identified here are removed. Thus, although it is clear that YbeY is needed for 3Ј maturation of 16S rRNA (24), its actual role remains to be determined.…”

Section: Discussionmentioning

confidence: 99%

Multiple Exoribonucleases Catalyze Maturation of the 3′ Terminus of 16S Ribosomal RNA (rRNA)

Sulthana

Deutscher

2013

Journal of Biological Chemistry

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“…We also tested the role of other RNases such as RNase BN (elaC or rbn), RNase P (rnpA), and YbeY (ybeY), which is a metal-dependent single-strand-specific endoribonuclease (Davies et al 2010;Pandey et al 2011). Their inactivation had no effect on the level or the balance between SraG and SraGp (Supplemental Fig.…”

Section: Characterization Of the Srag Srnamentioning

confidence: 99%

The small RNA SraG participates in PNPase homeostasis

Fontaine

Gasiorowski

Gracia

et al. 2016

RNA

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The rpsO-pnp operon encodes ribosomal protein S15 and polynucleotide phosphorylase, a major 3 ′ -5 ′ exoribonuclease involved in mRNA decay in Escherichia coli. The gene for the SraG small RNA is located between the coding regions of the rpsO and pnp genes, and it is transcribed in the opposite direction relative to the two genes. No function has been assigned to SraG. Multiple levels of post-transcriptional regulation have been demonstrated for the rpsO-pnp operon. Here we show that SraG is a new factor affecting pnp expression. SraG overexpression results in a reduction of pnp expression and a destabilization of pnp mRNA; in contrast, inhibition of SraG transcription results in a higher level of the pnp transcript. Furthermore, in vitro experiments indicate that SraG inhibits translation initiation of pnp. Together, these observations demonstrate that SraG participates in the post-transcriptional control of pnp by a direct antisense interaction between SraG and PNPase RNAs. Our data reveal a new level of regulation in the expression of this major exoribonuclease.

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Role of Escherichia coli YbeY, a highly conserved protein, in rRNA processing

Cited by 98 publications

References 45 publications

RBF1, a Plant Homolog of the Bacterial Ribosome-Binding Factor RbfA, Acts in Processing of the Chloroplast 16S Ribosomal RNA

RBF1, a Plant Homolog of the Bacterial Ribosome-Binding Factor RbfA, Acts in Processing of the Chloroplast 16S Ribosomal RNA

Multiple Exoribonucleases Catalyze Maturation of the 3′ Terminus of 16S Ribosomal RNA (rRNA)

The small RNA SraG participates in PNPase homeostasis

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