Selective Repression of Translation by the Brome Mosaic Virus 1a RNA Replication Protein

Yi, Guanghui; Gopinath, K.; Kao, C. Cheng

doi:10.1128/jvi.01991-06

Cited by 18 publications

(21 citation statements)

References 50 publications

(61 reference statements)

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“…6D). The BMV CP has been shown to directly contact these RNA motifs to differentially regulate BMV RNA synthesis and protein synthesis (40)(41)(42). However, we can- not rule out the possibility of indirect effects of modified CP interacting with cellular enzymes that also impact BMV gene expression.…”

Section: Discussionmentioning

confidence: 94%

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Phosphorylation of the Brome Mosaic Virus Capsid Regulates the Timing of Viral Infection

Hoover

Wang

Middleton

et al. 2016

J Virol

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The four brome mosaic virus (BMV) RNAs (RNA1 to RNA4) are encapsidated in three distinct virions that have different disassembly rates in infection. The mechanism for the differential release of BMV RNAs from virions is unknown, since 180 copies of the same coat protein (CP) encapsidate each of the BMV genomic RNAs. Using mass spectrometry, we found that the BMV CP contains a complex pattern of posttranslational modifications. Treatment with phosphatase was found to not significantly affect the stability of the virions containing RNA1 but significantly impacted the stability of the virions that encapsidated BMV RNA2 and RNA3/4. Cryo-electron microscopy reconstruction revealed dramatic structural changes in the capsid and the encapsidated RNA. A phosphomimetic mutation in the flexible N-terminal arm of the CP increased BMV RNA replication and virion produc- T he timing of viral genome release into the infected host cell is critically important to the outcome of infection, as it initiates the race between viral processes and the cellular immune responses against the virus. Even small changes in the timing of viral genome release can result in decreased fitness of the virus (1, 2). The regulation of the release of the viral RNAs is poorly understood, especially for icosahedral viruses.Brome mosaic virus (BMV) is a plant-infecting RNA virus that has served as a model system to study the regulation of RNA virus infection (3). A particularly intriguing feature of BMV is that its tripartite positive-strand RNA genome is encapsidated in three distinct virions. All three virions are required for successful infection. Upon entry into cells, RNA1 and RNA2 direct the translation of the viral replication-associated proteins, while RNA3 encodes the movement protein required for cell-to-cell spread and the coat protein (CP). The CP is translated from subgenomic RNA4. In a typical infection, RNA4 is coencapsidated with RNA3 in a 1:1 ratio (4), although the host species can influence the encapsidation of the viral RNAs (5).The BMV CP has multiple regulatory activities during infection (6, 7). Each BMV capsid contains 180 subunits of the CP arranged in a Tϭ3 symmetry. A CP subunit has structural features similar to those of a histone protein. Both have an intrinsically disordered N-terminal arm rich in positively charged residues followed by sequences that fold into a globular domain (7). The N-terminal arm contributes to the differential encapsidation of BMV RNA, has the ability to translocate from the internal cavity to the outside of the virion, and is preferentially cleaved during proteolysis (8,9). Virions formed by CPs that lack the first 8 residues were found to encapsidate RNA2 well but were labile for the encapsidation of RNA1 (8).The BMV virions can be separated by their density into two populations, one enriched for virions containing RNA1, called B1 virions, and the other enriched for virions that encapsidate RNA2 and RNA3/4, called B2.3/4 virions (9). The B1 virions release RNA1 more rapidly than the B2.3/4 v...

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Section: Discussionmentioning

confidence: 94%

“…Interestingly, the sequences affected by phosphorylation by more than 10% included known regulatory elements in the BMV genomic RNA (Fig. 6D) (40)(41)(42). In RNA1, the B box, which regulates translation, was less bound to the CP in the CIP-treated virions (Fig.…”

Section: Resultsmentioning

confidence: 99%

Phosphorylation of the Brome Mosaic Virus Capsid Regulates the Timing of Viral Infection

Hoover

Wang

Middleton

et al. 2016

J Virol

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“…Based on our results and those of the Ahlquist laboratory (9,49,60), there are at least three identified functions required for BMV infection due to the proposed 1a-B box interaction. First, the translation of 1a from RNA1 leads to the assembly of a complex on RNA1 as well as the formation of 1a complexes that act on the B boxes of RNA2 and RNA3.…”

Section: Discussionmentioning

confidence: 99%

“…We have not observed the rescue of any of the replication-defective RNA1 mutants by 1a in trans, an observation incompatible with this model. However, it is currently difficult to rule out that high levels of 1a expression have other regulatory effects, as has been demonstrated for translation (60). A biochemical analysis of the 1a protein is needed to distinguish between these two models.…”

Section: Discussionmentioning

confidence: 99%

“…The B box is involved in 1a's role in translation, replicase formation, and the cis-specific recognition of RNA1. The 1a protein also can regulate translation from RNA1 and RNA2 through the B box (18,60) as well as the targeting of RNA2 and RNA3 to the membrane-associated replication complexes (9,49). Direct binding of the B box by 1a has not been demonstrated by biochemical methods.…”

Section: Discussionmentioning

confidence: 99%

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cis - and trans -Acting Functions of Brome Mosaic Virus Protein 1a in Genomic RNA1 Replication

Kao

2008

J Virol

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RNA viruses employ a combination of mechanisms to regulate their gene expression and replication. Brome mosaic virus (BMV) is a tripartite positive-strand RNA virus used to study the requirements for virus infection. BMV genomic RNA1 encodes protein 1a, which contains a methyltransferase (MT) domain and a helicase domain that are required for replication. 1a forms a complex with the 2a RNA-dependent RNA polymerase for the replication and transcription of all BMV RNAs. RNA1 expressed with 2a from Agrobacterium-based vectors can result in RNA1 replication in Nicotiana benthamiana. A mutation in the 1a translation initiation codon significantly decreased RNA1 accumulation even when wild-type (WT) 1a and 2a were provided in trans. Therefore, efficient RNA1 replication requires 1a translation from RNA1 in cis, indicating a linkage between replication and translation. Mutation analyses showed that the full-length 1a protein was required for efficient RNA1 replication, not just the process of translation. Three RNA1s with mutations in the 1a MT domain could be partially rescued by WT 1a expressed in trans, indicating that the cis-acting function of 1a was retained. For all positive-strand RNA viruses, the genomic RNA(s) serves first as the mRNA to translate the replication proteins and then as the template for RNA replication. The proper timing of the two processes prevents the translating ribosomes, which move from 5Ј to 3Ј on the RNA, from colliding with the replicase that reads the RNA from 3Ј to 5Ј during negativestrand RNA synthesis. For poliovirus, ribosomes on the RNA template can actively prevent negative-strand RNA synthesis by providing a timing switch for the two processes. Replication can take place only after the clearing of ribosomes (6). Similar coupling of translation and replication/transcription has been reported for several animal and plant RNA viruses and with defective interfering RNAs (3,7,8,24,25,29,30,34,36,40,47,50,52,53,57,58).Brome mosaic virus (BMV), a member of the alphavirus-like superfamily of RNA viruses, is a model segmented positive-strand RNA virus for studying viral gene expression and replication, RNA encapsidation, and recombination (23,35,44,51). The BMV genome consists of three capped, messenger-sense genomic RNAs that have a tRNA-like structure within the 3Ј-untranslated region (3ЈUTR). Genomic RNA1 and RNA2 encode nonstructural proteins 1a and 2a, respectively, which direct RNA replication. Genomic RNA3 is a bicistronic RNA encoding the cell-tocell movement protein (MP) and coat protein (CP). The MP is translated from RNA3, whereas the 3Ј-proximal CP is translated from subgenomic RNA4 (33,35). In addition to replication in various plant hosts, BMV can replicate its genome in the surrogate host Saccharomyces cerevisiae (21).The BMV 1a protein contains two domains separated by a proline-rich sequence. The N-terminal 516 residues contain activities for m 7 G methyltransferase and the binding of GTP through a covalent intermediate that is required for viral RNA capping (1, 26). The...

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Brome Mosaic Virus RNA Replication and Transcription

Yi¹,

Kao²

2009

Viral Genome Replication

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Selective Repression of Translation by the Brome Mosaic Virus 1a RNA Replication Protein

Cited by 18 publications

References 50 publications

Phosphorylation of the Brome Mosaic Virus Capsid Regulates the Timing of Viral Infection

Phosphorylation of the Brome Mosaic Virus Capsid Regulates the Timing of Viral Infection

cis - and trans -Acting Functions of Brome Mosaic Virus Protein 1a in Genomic RNA1 Replication

Brome Mosaic Virus RNA Replication and Transcription

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