Florencia Meyer’s research while affiliated with Mississippi State University and other places

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Publications (6)


Sigmavirus phylogeny and genomic structure of Hermetia illucens sigma-like virus 1. (A) Phylogeny of the sigmaviruses based on an alignment the RDRP protein, including Hermetia illucens sigma-like virus 1, which is denoted by a star. Green dots along the branches represent highly supported nodes: SH-alrt ≥ 80%, abayes ≥ 0.9, and ≥95% UF bootstrap. Another virus from the family rhabdoviridae, lyssavirus rabies, was used as the outgroup. The phylogeny was inferred using the LG+F+I+G4 substitution model. (B) Genomic structure of Hermetia illucens sigma-like virus 1 according to our study in positive-sense polarity. The question mark next to the P gene denotes that we could not confirm homology by sequence similarity. The fragmented genome is probably a result of metatranscriptomic assembly error, as no other sigmaviruses are multipartite.
Hermetia illucens inse-like virus 1 groups within a highly supported clade of viruses within the family Inseviridae. (A) RDRP amino acid alignment of a selection of viruses of the order Ghabrivirales (see Section 2.6 and Figure S1). Green dots along the branches represent highly supported nodes: SH-alrt ≥ 80%, abayes ≥ 0.9, and ≥95% UF bootstrap. BSF viruses are highlighted in bold, and BSF viruses discovered in this study are denoted by a star. The tree was generated using the LG+F+R4 substitution model and rooted at the branch leading to the clade of fungal viruses at the bottom of the tree. (B) Genome structure of Hermetia illucens inse-like virus 1.
Occurrence of viruses across all samples used for this study. Viruses were counted as “present” in a sample if a transcript (>500 nt) clustered (90% sequence similarity) with a viral transcript from CD-hit clustering. The novel viruses detected in this study are denoted by a star. BSF uncharacterized bunyavirus-like 1 and BSF nairo-like virus 1 occur together more often than expected at random (Fisher’s Exact Test: p = 5.867 × 10⁻¹¹).
Eight candidate antiviral genes have significant differences in gene expression between virus-present BSF samples and virus-absent BSF samples. (A) Three genes putatively from the Imd pathway in BSF had significant differences in gene expression in virus-present vs. virus-absent BSF. Diap2 was upregulated in virus-absent samples, while hep and IKKbeta were upregulated in virus-present BSF samples. (B) Two genes from the JAK/STAT pathway were upregulated in virus-present BSF samples. Along with these, Raf, a gene whose product has known interactions with the JAK/STAT pathway, was upregulated in virus-absent BSF samples. (C) Two AMPs were significantly upregulated in virus-absent samples. All gene names are derived from their ortholog in Drosophila melanogaster.
Significantly differentially expressed BSF genes and the function of their Drosophila melanogaster orthologs. Genes that are downregulated in virus-present samples are shown in blue text, while genes that are upregulated in virus-present samples are in red text.
Detection of Known and Novel Virus Sequences in the Black Solider Fly and Expression of Host Antiviral Pathways
  • Article
  • Full-text available

July 2024

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36 Reads

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1 Citation

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Heather R. Jordan

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Florencia Meyer

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The mass rearing of animals in close quarters can be highly conducive to microbe transmission, including pathogens. This has been shown multiple times in the case of important industrial insects such as crickets, silkworms, and honeybees. One industrial insect of increasing importance is the black soldier fly (Diptera: Hermetia illucens), as it can convert organic waste into high-quality protein and fatty acids. Along with this, they take up far less space than traditional protein sources, as millions of black soldier flies can be reared in a relatively small facility. Because of this, there is a growing interest in the pathogens that could impact black soldier fly-rearing efforts. So far, only three black soldier fly-associated viruses have been identified. We used metatranscriptomic sequencing to survey black soldier fly guts, frass, and diet for viruses. We detected sequences from two novel viruses. One, which we name Hermetia illucens sigma-like virus 1, is phylogenetically related to viruses of the genus Sigmavirus, which have been highly studied in Drosophila. The other novel virus, which we name Hermetia illucens inse-like virus 1, is the second double-stranded RNA virus of the order Ghabrivirales described in the black soldier fly, and groups within a new family of insect viruses called the Inseviridae. We also detected two black soldier fly-associated viruses previously identified by our group: BSF nairo-like virus 1 and BSF uncharacterized bunyavirus-like 1. Consistent with our previous study, these two viruses are found primarily in frass samples and occur together more often than expected at random. When analyzing host transcription, we found significant differences in gene expression for eight candidate antiviral genes in the black soldier fly when comparing samples with and without viral sequences. Our results suggest that black soldier fly–virus interactions are ongoing, and they could be of interest to black soldier fly producers.

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Detection of known and novel virus sequences in the black solider fly and expression of host antiviral pathways

April 2024

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17 Reads

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1 Citation

Mass rearing of animals in close quarters can be highly conducive to microbe transmission, including pathogens. This has been shown multiple times in the case of important industrial insects such as crickets, silkworms, and honeybees. One industrial insect of increasing importance is the black soldier fly (Diptera: Hermetia illucens), as it can convert organic waste into high quality protein and fatty acids. Along with this, they take up far less space than traditional protein sources, as millions of black soldier flies can be reared in a relatively small facility. Because of this, there is a growing interest in the pathogens that could impact black soldier fly rearing efforts. So far, only three black soldier fly-associated viruses have been identified. We used metatranscriptomic sequencing to survey black soldier fly guts, frass, and diet for viruses. We detected sequences from two novel viruses. One, which we name Hermetia illucens sigma-like virus 1, is phylogenetically related to viruses of the genus Sigmavirus, which have been highly studied in Drosophila. The other novel virus, which we name Hermetia illucens toti-like virus 2, is the second toti-like virus to be described in the black soldier fly. We also detected two black soldier fly-associated viruses previously identified by our group: BSF nairo-like virus, and BSF uncharacterized bunya-like virus. Consistent with our previous study, these two viruses are found primarily in frass samples and occur together more often than expected at random. When analyzing host transcription, we found significant differences in gene expression for eight candidate antiviral genes in black soldier fly when comparing samples with and without viral sequences. Our results suggest that black soldier fly-virus interactions are ongoing, and they could be of interest to black soldier fly producers.


Do bed bugs transmit human viruses, or do humans spread bed bugs and their viruses? A worldwide survey of the bed bug RNA virosphere

February 2024

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105 Reads

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3 Citations

Virus Research

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[...]

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Bed bugs (Hemiptera: Cimicidae) are a globally distributed hematophagous pest that routinely feed on humans. Unlike many blood-sucking arthropods, they have never been linked to pathogen transmission in a natural setting, and despite increasing interest in their role as disease vectors, little is known about the viruses that bed bugs naturally harbor. Here, we present a global-scale survey of the bed bug RNA virosphere. We sequenced the metatranscriptomes of 22 individual bed bugs (Cimex lectularius and Cimex hemipterus) from 8 locations around the world. We detected sequences from two known bed bug viruses (Shuangao bedbug virus 1 and Shuangao bedbug virus 2) which extends their geographical range. We identified three novel bed bug virus sequences from a tenui-like virus (Bunyavirales), a toti-like virus (Ghabrivirales), and a luteo-like virus (Tolivirales). Interestingly, some of the bed bug viruses branch near to insect-transmitted plant-infecting viruses, opening questions regarding the evolution of plant virus infection. When we analyzed the viral sequences by their host's collection location, we found unexpected patterns of geographical diversity that may reflect humans’ role in bed bug dispersal. Additionally, we investigated the effect that Wolbachia, the primary bed bug endosymbiont, may have on viral abundance and found that Wolbachia infection neither promotes nor inhibits viral infection. Finally, our results provide no evidence that bed bugs transmit any known human pathogenic viruses.


Do bed bugs transmit human viruses, or do humans transmit bed bug viruses? A worldwide survey of the bed bug RNA virosphere

October 2023

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135 Reads

Bed bugs (Hemiptera: Cimicidae ) are a globally distributed hematophagous pest that routinely feed on humans. Unlike many blood-sucking arthropods, they have never been linked to disease transmission in a natural setting, and despite interest in their role as disease vectors, little is known about the viruses that bed bugs naturally harbor. Here, we present a global-scale survey of the bed bug RNA virosphere. We sequenced the metatranscriptomes of 22 individual bed bugs ( Cimex lectularius and Cimex hemipterus ) from 8 locations around the world. We detected sequences from two known bed bug viruses (Shuangao bedbug virus 1 and Shuangao bedbug virus 2) which extends their geographical range and the host range of Shuangao bedbug virus 1 to Cimex lectularius . We identified three novel bed bug virus sequences from a tenui-like virus ( Bunyavirales ), a toti-like virus ( Ghabrivirales ), and a luteo-like virus ( Tolivirales ). Interestingly, some of the bed bug viruses branch near to insect-transmitted plant-infecting viruses, opening questions regarding the evolution of plant virus infection. When we analyzed the putative viral sequences by their host’s collection location, we found unexpected patterns of geographical diversity that may reflect humans’ role in bed bug dispersal. Additionally, we investigated the effect that Wolbachia, the primary bed bug endosymbiont, may have on viral abundance and found that Wolbachia infection neither promotes nor inhibits viral infection. Finally, our results provide no evidence that bed bugs transmit any known human pathogenic viruses.


Phylogenetic tree of Bunyavirales RNA-dependent RNA polymerase. The viruses discovered in this paper are in red text, and their clade is highlighted in green. The green dots along the branches represent a minimum bootstrap value of 75. Families that did not contain the novel putative viral transcripts were collapsed at their common ancestral node. The tree was rooted at the midpoint.
Viral genome occurrence across samples. Occurrence matrix showing the samples in which the putative viral sequences discovered in this study were found. Black boxes indicate that a viral genome segment was present, and grey boxes indicate that a viral genome segment was absent. The full sample occurrence matrix is shown in Figure S2.
Genome Segments of the two bunyaviruses discovered in this study. (A) The proposed genome of BSF Nairovirus-like 1. The L, M, and S segments are 4543, 2837, and 922 nucleotides, respectively. The bunyavirus RdRp conserved domain lies between nucleotides 3950–4294 (E-value = 2.43 × 10⁻⁶) on the L segment. (B) The proposed genome of BSF uncharacterized bunyavirus-like 1. The L and S segments are 5696 and 853 nucleotides, respectively. No transcript met the requirements for an M segment candidate. The bunyavirus RdRp conserved domain lies between nucleotides 2052–2888 (E-value = 1.10 × 10⁻¹⁵) on the L segment.
Bioinformatic Surveillance Leads to Discovery of Two Novel Putative Bunyaviruses Associated with Black Soldier Fly

July 2023

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115 Reads

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4 Citations

The black soldier fly (Hermetia illucens, BSF) has emerged as an industrial insect of high promise because of its ability to convert organic waste into nutritious feedstock, making it an environmentally sustainable alternative protein source. As global interest rises, rearing efforts have also been upscaled, which is highly conducive to pathogen transmission. Viral epidemics have stifled mass-rearing efforts of other insects of economic importance, such as crickets, silkworms, and honeybees, but little is known about the viruses that associate with BSF. Although BSFs are thought to be unusually resistant to pathogens because of their expansive antimicrobial gene repertoire, surveillance techniques could be useful in identifying emerging pathogens and common BSF microbes. In this study, we used high-throughput sequencing data to survey BSF larvae and frass samples, and we identified two novel bunyavirus-like sequences. Our phylogenetic analysis grouped one in the family Nairoviridae and the other with two unclassified bunyaviruses. We describe these putative novel viruses as BSF Nairovirus-like 1 and BSF uncharacterized bunyavirus-like 1. We identified candidate segments for the full BSF Nairovirus-like 1 genome using a technique based on transcript co-occurrence and only a partial genome for BSF uncharacterized bunyavirus-like 1. These results emphasize the value of routine BSF colony surveillance and add to the number of viruses associated with BSF.


Sample Overview. A summary of each sample, number of reads, percent mapped to 297 BSF genome, sample type, time point, and treatment. 298
Top five BLAST hits of the two putative novel bunyavirus L segments discovered in 300 this study. The Table contains Each BLAST hit, the subject's accession number, the 301 corresponding e-value, and the host from which the virus was identified. Notably, all hosts are 302
Bioinformatic Surveillance Leads to Discovery of Two Novel Putative Bunyaviruses Associated with Black Soldier Fly

June 2023

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58 Reads

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1 Citation

The black soldier fly (Hermetia illucens, BSF) has emerged as an industrial insect of high promise because of its ability to convert organic waste into nutritious feedstock, making it an environmentally sustainable alternative protein source. As global interest rises, rearing efforts are also upscaled, which is highly conducive to pathogen transmission. Viral epidemics have stifled mass-rearing efforts of other insects of economic importance, such as crickets, silkworms, and honeybees, but little is known about the viruses that associate with BSF. Although it is thought that BSF are unusually resistant to pathogens because of their expansive antimicrobial gene repertoire, surveillance techniques could be useful to identify emerging pathogens and common BSF microbes. In this study, we used high-throughput sequencing data to survey BSF larvae and frass samples, and we identified two novel bunyavirus-like sequences. Our phylogenetic analyses grouped one in the family Nairoviridae, and the other with two unclassified bunyaviruses. We describe these putative novel viruses as BSF Nairovirus-like 1 and BSF uncharacterized bunyavirus-like 1. We identified candidate segments for the full BSF Nairovirus-like 1 genome using a technique based on transcript co-occurrence, and only a partial genome for BSF uncharacterized bunyavirus-like 1. These results emphasize the value of routine BSF colony surveillance and add to the number of viruses associated with BSF.

Citations (4)


... The number of papers published each year on the black soldier fly is impressive and growing exponen-tially (Liu et al., 2023), and its current 'anti-hero' role is congruent with the (apparently) few diseases and natural enemies currently known for this species (Lemke et al., 2022;Barret et al., 2023). Unfortunately, due to the large-scale farming of H. illucens worldwide, often under semi-natural conditions, it is probably only a matter of time before the number of pathogens and antagonists (as parasitoids) increases (Walt et al., 2023(Walt et al., , 2024, similar to other intensive animal production. The aim of this paper is to summarise and review the limited information published to date on the various hymenopteran parasitoids known to be associated with the preimaginal development of the black soldier fly. ...

Reference:

Parasitoids of the black soldier fly (Hermetia illucens) – a minor problem or the tip of the iceberg?
Detection of Known and Novel Virus Sequences in the Black Solider Fly and Expression of Host Antiviral Pathways

... This study brought the total number of BSF-associated exogenous viruses to eight candidate species belonging to the orders Ghabrivirales (Inseviridae and Lebotiviridae), Picornavirales (Iflaviridae, Solinviviridae and Dicistroviridae), Mononegavirales (Rhabdoviridae), and Bunyavirales (Nairoviridae, and unclassified). From our new datasets, a single near-complete contig for HiSgV was assembled encompassing all five ORFs, confirming a previous report of this BSF virus in the USA (Walt et al., 2024). This study also introduced alternative in silico high-throughput screening approaches enabling the detection of seven of the eight virus sequences in all currently available datasets. ...

Detection of known and novel virus sequences in the black solider fly and expression of host antiviral pathways

... The most crucial one, and the one most likely to be violated in many natural populations, is the balance between mutation, migration, and drift. Violation of balance is critical in pest species (organisms that depend on humans and their resources as causative agents of human disease, domestic animals, and cultivated plants), whose effective population sizes are generally high and whose demographic history is recent [68][69][70]. were not in mutation-migration-drift equilibrium. This observation was consistent with the detection in previous studies of low levels of genetic differentiation across the distribution of these two species. ...

Do bed bugs transmit human viruses, or do humans spread bed bugs and their viruses? A worldwide survey of the bed bug RNA virosphere

Virus Research

... The number of papers published each year on the black soldier fly is impressive and growing exponen-tially (Liu et al., 2023), and its current 'anti-hero' role is congruent with the (apparently) few diseases and natural enemies currently known for this species (Lemke et al., 2022;Barret et al., 2023). Unfortunately, due to the large-scale farming of H. illucens worldwide, often under semi-natural conditions, it is probably only a matter of time before the number of pathogens and antagonists (as parasitoids) increases (Walt et al., 2023(Walt et al., , 2024, similar to other intensive animal production. The aim of this paper is to summarise and review the limited information published to date on the various hymenopteran parasitoids known to be associated with the preimaginal development of the black soldier fly. ...

Bioinformatic Surveillance Leads to Discovery of Two Novel Putative Bunyaviruses Associated with Black Soldier Fly