An iflavirus found in stink bugs (Hemiptera: Pentatomidae) of four different species

Santos, Ethiane Rozo dos; Trentin, Luana Beló; Ecker, Assis; Silva, Leonardo A.; Borges, Miguel; Mowery, Joseph; Ribeiro, Bergmann Morais; Harrison, Robert L.; Ardisson-Araújo, Daniel Mendes Pereira

doi:10.1016/j.virol.2019.06.002

Cited by 16 publications

(6 citation statements)

References 35 publications

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“…A maximum-likelihood tree was inferred using the Fast-tree method implemented into Geneious 11.1.5 software [17] while the branch support was estimated by a Shimodaira-Hasegawa-like test. According to Silva et al [2015], i aviruses do not form a single clade according to the insect-infected order, suggesting that they did not follow the same evolutionary path as their insect hosts at order level [23,24]. Our results corroborate this observation, where we can see that AgIV-1 is ancestral within a clade with three i aviruses found in lepidopteran hosts (Fig.…”

Section: Runningsupporting

confidence: 85%

A novel picorna-like virus identified in the cotton boll weevil Anthonomus grandis (Coleoptera: Curculionidae)

Silva

Basso²,

Ribeiro

2023

Arch Virol

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Cotton boll weevil (CBW; Anthonomus grandis; Coleoptera: Curculionidae), is considered the major cotton insect-pest causing considerable losses in yield and ber quality. The increase in boll weevil population due to the increasingly ine cient chemical control measures are of great concern among cotton producers. The absence of conventional or transgenic cultivars with minimal resistance to CBW has stimulated the search for new molecular and biological tools for e cient control of this insect-pest. Herein, were used a metagenomic approach based on RNA deep sequencing to investigate the presence of viruses and coding viral RNA in native apparently healthy adult CBW insects collected in cotton crops at Mato Grosso state, Brazil. Using the Illumina HiSeq 2000 paired-end platform, 138,798 virus-related

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Section: Runningsupporting

confidence: 85%

A novel picorna-like virus identified in the cotton boll weevil Anthonomus grandis (Coleoptera: Curculionidae)

Silva

Basso²,

Ribeiro

2023

Arch Virol

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“…Although the idea behind the application of entomopathogens as biocontrol agent dates back to the nineteenth century (Metchnikoff, 1880), the use of insect-specific viruses in plant protection is lately gaining attention. Iflaviruses may infect their hosts and transcribe high amounts of RNA without inducing visible symptoms in the infected population (dos Santos et al, 2019) but, for example, infection with an iflavirus increases the susceptibility of Spodoptera exigua larvae to a baculovirus insecticide (Carballo et al, 2017). Interactions such as this among different species in a complex microbiome may explain the lower load of EVV-1 in E. variegatus individuals infected with Flavescence dorée phytoplasma (Abbà et al, 2017).…”

Section: Tablementioning

confidence: 99%

“…The use of next generation sequencing in the last few years allowed the discovery of many novel viruses in arthropods (Dong et al, 2018;dos Santos et al, 2019;O'Brien et al, 2018). In particular, this technology proved crucial for the identification of covert viruses, those that do not cause overtly pathological effects on their hosts (Nouri et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

“…Among them, iflaviruses (Iflaviridae) form a distinct group in the order Picornavirales, (Valles et al, 2017). Effects of some of these viruses include developmental anomalies (Li et al, 2019) behavioural alterations (Wells et al, 2016), tissue pathologies (Brettell et al, 2017), and premature death (Geng et al, 2017) of the insect host, while others do not cause any evident symptoms (dos Santos et al, 2019;Murakami et al, 2013). Transmission modalities of these viruses have been explored, leading to a multifaceted infection model.…”

Section: Introductionmentioning

confidence: 99%

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Biological characterization of Euscelidius variegatus iflavirus 1

Ottati

Persico

Rossi

et al. 2020

Journal of Invertebrate Pathology

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Virus-based biocontrol technologies represent sustainable alternatives to pesticides and insecticides. Phytoplasmas are prokaryotic plant pathogens causing severe losses to crops worldwide. Novel approaches are needed since insecticides against their insect vectors and rogueing of infected plants are the only available strategies to counteract phytoplasma diseases. A new iflavirus, named EVV-1, has been described in the leafhopper phytoplasma vector Euscelidius variegatus, raising the potential to use virus-based application strategies against phytoplasma disease. Here transmission routes of EVV-1 are characterized, and localization within the host reveals the mechanism of insect tolerance to virus infection. Both vertical and horizontal transmission of EVV-1 occur and vertical transmission was more efficient. The virus is systemic and occurs in all life-stages, with the highest loads measured in ovaries and first to third instar nymphs. The basic knowledge gained here on the biology of the virus is crucial for possible future application of iflaviruses as biocontrol agents.

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“…Cross-species replication ability of symbiotic viruses has been commonly reported in insects, such as picorna-like viruses in stink bug and whitefly species [26,27], the deformed wing virus in bumble bee species and the small hive beetle [28,29]. To explore the potential cross-species ability of NLBV in related planthopper species, small brown planthopper (SBPH, Laodelphax striatellus) and white-backed planthopper (WBPH, Sogatella furcifera), two other rice planthopper in the family Delphacidae, were microinjected with crude extracts of NLBV+ BPHs.…”

mentioning

confidence: 99%

Molecular and biological characterization of a bunyavirus infecting the brown planthopper (Nilaparvata lugens)

Li,

Ye,

Feng

et al. 2024

Journal of General Virology

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A negative-strand symbiotic RNA virus, tentatively named Nilaparvata lugens Bunyavirus (NLBV), was identified in the brown planthopper (BPH, Nilaparvata lugens). Phylogenetic analysis indicated that NLBV is a member of the genus Mobuvirus (family Phenuiviridae, order Bunyavirales). Analysis of virus-derived small interfering RNA suggested that antiviral immunity of BPH was successfully activated by NLBV infection. Tissue-specific investigation showed that NLBV was mainly accumulated in the fat-body of BPH adults. Moreover, NLBV was detected in eggs of viruliferous female BPHs, suggesting the possibility of vertical transmission of NLBV in BPH. Additionally, no significant differences were observed for the biological properties between NLBV-infected and NLBV-free BPHs. Finally, analysis of geographic distribution indicated that NLBV may be prevalent in Southeast Asia. This study provided a comprehensive characterization on the molecular and biological properties of a symbiotic virus in BPH, which will contribute to our understanding of the increasingly discovered RNA viruses in insects.

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An iflavirus found in stink bugs (Hemiptera: Pentatomidae) of four different species

Cited by 16 publications

References 35 publications

A novel picorna-like virus identified in the cotton boll weevil Anthonomus grandis (Coleoptera: Curculionidae)

A novel picorna-like virus identified in the cotton boll weevil Anthonomus grandis (Coleoptera: Curculionidae)

Biological characterization of Euscelidius variegatus iflavirus 1

Molecular and biological characterization of a bunyavirus infecting the brown planthopper (Nilaparvata lugens)

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