Dinucleotide Composition in Animal RNA Viruses Is Shaped More by Virus Family than by Host Species

Giallonardo, Francesca Di; Schlub, Timothy E.; Shī, Mǎng; Holmes, Edward C.

doi:10.1128/jvi.02381-16

Cited by 102 publications

(112 citation statements)

References 58 publications

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“…Other than the retroviruses, RNA viruses do not readily provide host linkage information in metagenomics like DNA viruses and phages often do. Linking RNA virus and host has been imputed based on transcript levels or dinucleotide usage, although the latter has recently been shown to more correlated with viral family than host species (Kapoor et al, 2010;Giallonardo et al, 2017;Shi et al, 2016). Even when sequencing discrete organisms such as a singular honeybee, the co-existence of eukaryotic parasites means that imputation of viral host cannot be exact (Runckel et al, 2011).…”

Section: Easier Faster Better Broader Protocolsmentioning

confidence: 99%

A decade of RNA virus metagenomics is (not) enough

2018

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It is hard to overemphasize the role that metagenomics has had on our recent understanding of RNA virus diversity. Metagenomics in the 21st century has brought with it an explosion in the number of RNA virus species, genera, and families far exceeding that following the discovery of the microscope in the 18th century for eukaryotic life or culture media in the 19th century for bacteriology or the 20th century for virology. When the definition of success in organism discovery is measured by sequence diversity and evolutionary distance, RNA viruses win. This review explores the history of RNA virus metagenomics, reasons for the successes so far in RNA virus metagenomics, and methodological concerns. In addition, the review briefly covers clinical metagenomics and environmental metagenomics and highlights some of the critical accomplishments that have defined the fast pace of RNA virus discoveries in recent years. Slightly more than a decade in, the field is exhausted from its discoveries but knows that there is yet even more out there to be found.

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Section: Easier Faster Better Broader Protocolsmentioning

confidence: 99%

A decade of RNA virus metagenomics is (not) enough

2018

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“…However, there are many other compositional features within the DNA sequences of protein coding genes upon which selection acts. These features include: the genic GC content (4-6) , CpG or TpA dinucleotides (7)(8)(9)(10)(11) , codon pairs (12)(13)(14)(15) , endonuclease recognition sites (16)(17)(18)(19) , intron splicing motifs (20) , mRNA folding stability (21)(22)(23)(24)(25) , ribosomal pausing sites (26,27) , concentration of non-preferred codons at transcripts 5' end (28)(29)(30) , autocorrelation of codons on transcript (31) , and capacity of codon order to influence co-translational folding of proteins (32,33) . At any given site, natural selection may act on one or more of these features to favor the use of certain codons over other synonymous ones (34) .…”

Section: Synonymous Compositional Features Of Viral Genomesmentioning

confidence: 99%

ΦX174 Attenuation by Whole Genome Codon Deoptimization

Leuven

Ederer

Burleigh

et al. 2020

Preprint

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Natural selection acting on synonymous mutations in protein-coding genes influences genome composition and evolution. In viruses, introducing synonymous mutations in genes encoding structural proteins can drastically reduce viral growth, providing a means to generate potent, live attenuated vaccine candidates. However, an improved understanding of what compositional features are under selection and how combinations of synonymous mutations affect viral growth is needed to predictably attenuate viruses and make them resistant to reversion. We systematically recoded all non-overlapping genes of the bacteriophage ΦX174 with codons rarely used in its E. coli host. The fitness of recombinant viruses decreases as additional deoptimizing mutations are made to the genome, although not always linearly, and not consistently across genes. Combining deoptimizing mutations may reduce viral fitness more or less than expected from the effect size of the constituent mutations and we point out difficulties in untangling correlated compositional features. We test our model by optimizing the same genes and find that the relationship between codon usage and fitness does not hold for optimization, suggesting that wild-type ΦX174 is at a fitness optimum. This work highlights the need to better understand how selection acts on patterns of synonymous codon usage across the genome and provides a convenient system to investigate the genetic determinants of virulence.

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“…The subsequent codon usage bias analyses of the nodavirus in this study were narrowed down to focus on beta‐ and gammanodavirus due to its significant impact on the cultured aquatic animal. The RSCU comparison of nodavirus and their hosts clearly showed the heterogeneous composition of mono‐ and dinucleotide among all strains, but reflected poorly on its host species especially gammanodavirus (Giallonardo, Schlub, Shi, & Holmes, ; Kumar et al, ). However, both viral genome and host mRNA are anticipated to share some common features due to constraint induced by host factors and their coexistence in the same cytoplasmic cellular environment (Kapoor et al, ).…”

Section: Discussionmentioning

confidence: 99%

Comparative genome analysis reveals a distinct influence of nucleotide composition on virus–host species‐specific interaction of prawn‐infecting nodavirus

Ismail

Baharum

Fazry

et al. 2019

Journal of Fish Diseases

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Discovery of species‐specific interaction between the host and virus has drawn the interest of many researchers to study the evolution of the newly emerged virus. Comparative genome analysis provides insights of the virus functional genome evolution and the underlying mechanisms of virus–host interactions. The analysis of nucleotide composition signified the evolution of nodavirus towards host specialization in a host‐specific mutation manner. GC‐rich genome of betanodavirus was significantly deficient in UpA and UpU dinucleotides composition, whilst the AU‐rich genome of gammanodavirus was deficient in CpG dinucleotide. The capsid of MrNV and PvNV of gammanodavirus retains the highest abundance of adenine and uracil at the second codon position, respectively, which were found to be very distinctive from the other genera. ENC‐GC3 plot inferred the influence of natural selection and mutational pressure in shaping the evolution of MrNV RdRp and capsid, respectively. Furthermore, CAI/eCAI analysis predicts a comparable adaptability of MrNV in squid, Sepia officinalis than its natural host, Macrobrachium rosenbergii. Thus, further study is warranted to investigate the capacity of MrNV replication in S. officinalis owing to its high codon adaptation index.

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Dinucleotide Composition in Animal RNA Viruses Is Shaped More by Virus Family than by Host Species

Cited by 102 publications

References 58 publications

A decade of RNA virus metagenomics is (not) enough

A decade of RNA virus metagenomics is (not) enough

ΦX174 Attenuation by Whole Genome Codon Deoptimization

Comparative genome analysis reveals a distinct influence of nucleotide composition on virus–host species‐specific interaction of prawn‐infecting nodavirus

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