A -1 ribosomal frameshift in a double-stranded RNA virus of yeast forms a gag-pol fusion protein.

Dinman, Jonathan D.; Icho, T; Wickner, Reed B.

doi:10.1073/pnas.88.1.174

Cited by 325 publications

(325 citation statements)

References 47 publications

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“…This is in accordance with the synthesis of the viral polymerase as a fusion with CP by a -1 ribosomal frameshifting, event that occur at low frequency [3]. XdV-L2 can be considered a replicative intermediate of XdV-L1A, because it is identical in sequence but without 989 bp at the 5 0 -end.…”

Section: Discussionsupporting

confidence: 76%

“…Its dsRNA genome of 4,579 bp in length has two ORFs, the 5 0 ORF encodes for the major capsid protein (CP) (Gag or CP, 76-81 kDa) and the 3 0 ORF for the RNA-dependent RNA polymerase (Pol or RdRp). Both ORFs are overlapped in 16-130 nt and the viral polymerase is expressed as a fusion CP-Pol protein (predicted size of 170 kDa) generated by a ribosomal-1 frameshifting [3][4][5]. Some strains of S. cerevisiae have an additional dsRNA molecule of 1.6-1.8 kbp called M-dsRNA, that encoded fort a killer toxin and self-immunity; this ''satellite virus'' depends on the viral proteins encoded by L-A (the ''helper virus'') for its encapsidation and replication [6].…”

Section: Introductionmentioning

confidence: 99%

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Characterization of virus-like particles and identification of capsid proteins in Xanthophyllomyces dendrorhous

et al. 2015

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Two dsRNAs of estimated lengths of 5 (L1) and 3.7 (L2) kpb are commonly found in strains of the basidiomycetous yeast Xanthophyllomyces dendrorhous, and the presence of virus-like particles (VLPs) have been described in some strains. Recently, two putative totiviruses (XdV-L1A and XdV-L1B) were identified from L1 dsRNA and one (XdV-L2) from L2 dsRNA in the strain UCD 67-385. In some strains, there are smaller dsRNAs (0.9-1.4 kb) that probable are satellite elements. In this work, the VLPs from several strains of X. dendrorhous, which differ in their dsRNAs content, were separated by sucrose gradient and characterized in relation to the dsRNAs and proteins that compose them. It was found that all types of dsRNAs were encapsidated into VLPs, supporting the hypothesis that the smaller dsRNAs are satellite molecules. A main protein of approx. 76 or 37 kDa composed the virions that only have the L1-dsRNA or L2-dsRNA, respectively. In the strain UCD 67-385, these both proteins were identified as viral capsid protein (CP), allow to confirm the gag predicted ORFs in XdV-L1A, XdV-L1B, and XdV-L2, with CPs of 76.6, 76.2, and 38.8 kDa, respectively. Analysis of predicted structures of CPs of XdV-L1A and XdV-L1B, showed high similitudes with the CPs of ScV-L-A and other totiviruses.

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Section: Discussionsupporting

confidence: 76%

Section: Introductionmentioning

confidence: 99%

Characterization of virus-like particles and identification of capsid proteins in Xanthophyllomyces dendrorhous

et al. 2015

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“…Noteworthy, the -1 PRF is strategically applied by the L-A virus for propagation. 50 As shown in our previous report, the lack of P1 and P2 proteins on the ribosome, which form the lateral stalk component of the GAC, was associated with increased L-A virus replication. Interestingly, this was accompanied with increased eEF1A association with the GAC region, 51 indicating a functional interplay between P1/P2, uL11, and eEF1A during the ribosomal decoding step.…”

Section: Ul11 Involvement In Ribosomal Speed and Accuracymentioning

confidence: 99%

Functional analysis of the uL11 protein impact on translational machinery

Wawiórka¹,

Molestak²,

Szajwaj³

et al. 2016

Cell Cycle

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The ribosomal GTPase associated center constitutes the ribosomal area, which is the landing platform for translational GTPases and stimulates their hydrolytic activity. The ribosomal stalk represents a landmark structure in this center, and in eukaryotes is composed of uL11, uL10 and P1/P2 proteins. The modus operandi of the uL11 protein has not been exhaustively studied in vivo neither in prokaryotic nor in eukaryotic cells. Using a yeast model, we have brought functional insight into the translational apparatus deprived of uL11, filling the gap between structural and biochemical studies. We show that the uL11 is an important element in various aspects of 'ribosomal life'. uL11 is involved in 'birth' (biogenesis and initiation), by taking part in Tif6 release and contributing to ribosomal subunit-joining at the initiation step of translation. uL11 is particularly engaged in the 'active life' of the ribosome, in elongation, being responsible for the interplay with eEF1A and fidelity of translation and contributing to a lesser extent to eEF2-dependent translocation. Our results define the uL11 protein as a critical GAC element universally involved in trGTPase 'productive state' stabilization, being primarily a part of the ribosomal element allosterically contributing to the fidelity of the decoding event.

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“…The mopmutation was identified by the dark blue phenotype of a single colony (EMS56). EMS56 was cured of p-1 and was retransformed with p-1 or PO (previously refered to as pTI25) (DINMAN et al 1991, DINMAN and WICKNER 1992. From Pgalactosidase activities with each plasmid the efficiency of -1 ribosomal frameshifting was 5.7% in EMS56 and 1.9% in unmutagenized cells, a ratio of 3.0.…”

Section: Isolation Of Mopmentioning

confidence: 99%

“…Plasmids: Plasmids pTI25 and pF8 have been described (DINMAN et al 1991). Briefly, pTI25 is the 0-frame control plasmid, while pF8 is the -1 ribosomal frameshift tester.…”

Section: Strains and Mediamentioning

confidence: 99%

5S rRNA is involved in fidelity of translational reading frame

1996

Trends in Genetics

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Chromosomal mutants (maintenance of frame = mof) in which the efficiency of -1 ribosomal frameshifting is increased can be isolated using constructs in which lacZ expression is dependent upon a -1 shift of reading frame. We isolate a new mof mutation, mop, in Saccharomyces cereuisiae and show that it is complemented by both single and multi-copy 5 S rDNA clones. Two independent insertion mutations in the rDNA locus (rDNA::LEUZ and rDNA::URA3) also display the Mof-phenotype and are also complemented by single and multicopy 5 S rDNA clones. Mutant 5 S rRNAs expressed from a plasmid as 20-50% of total 5 S rRNA in a wild-type host also induced the Mof-phenotype. The increase in frameshifting is greatest when the lac2 reporter gene is expressed on a high copy, episomal vector. No differences were found in 5 S rRNA copy number or electrophoretic mobilities in mopstrains. Both m o p and rDNA::LEUZincrease the efficiency of +1 frameshifting as well but have no effect on readthrough of UAG or UAA termination codons, indicating that not all translational specificity is affected. These data suggest a role for 5 S rRNA in the maintenance of frame in translation.A LTHOUGH correct maintenance of frame is critical to ribosome function, a growing number of cases of directed alterations in translational reading frame have been identified, mostly in viruses (e.g., retroviruses, coronaviruses BAUGH 1993). The study of these ribosomal frameshifts is important both because of their critical role in animal and plant pathogens and because of the information they provide about the mechanisms by which reading frame is normally maintained.Ribosomal frameshifting in the -1 direction in retroviruses, (+) sRNA viruses and dsRNA viruses generally requires a special sequence, X XXY W Z (the 0-frame is indicated by spaces) called the "slippery site" (JACKS et al. 1988). Here the simultaneous slippage of ribosome-bound A-and P-site tRNAs by one base in the 5' direction still leaves their nonwobble bases correctly paired in the new reading frame. A second promoting element (JACKS et al. 1988), usually an RNA pseudoknot, is located immediately 3' to the slippery site (BRIERLEY et , TEN DAM et al. 1992. The RNA pseudoknot makes the ribosome pause over the slippery site (TU et al. 1992, SOMOCYI et al. 1993, increasing the probability of 5' ribosomal movement. The efficiency of -1 ribosomal frameshifting can be affected by the ability of the ribosome-bound tRNAs (especially the Asite tRNA) to un-pair from the 0-frame (DINMAN et al. , BRIERLEY et al. 1992, the ability of these tRNAs to re-pair to the -1 frame (JACKS et al. 1988), and the relative position of the RNA pseudoknot from the slippery site and its thermodynamic stability (BRIERLEY et al. 1989,1991; DINMAN and WICKNER 1992). The efficiency of -1 ribosomal frameshifting can also be affected by mutations in cellular gene products that presumably interact with these tRNA and mRNA factors WICKNER 1992, 1994). Changes in any of these components can be observed as changes in the effici...

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A -1 ribosomal frameshift in a double-stranded RNA virus of yeast forms a gag-pol fusion protein.

Cited by 325 publications

References 47 publications

Characterization of virus-like particles and identification of capsid proteins in Xanthophyllomyces dendrorhous

Characterization of virus-like particles and identification of capsid proteins in Xanthophyllomyces dendrorhous

Functional analysis of the uL11 protein impact on translational machinery

5S rRNA is involved in fidelity of translational reading frame

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