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1. StemLoop-Finder: a Tool for the Detection of DNA Hairpins with Conserved Motifs

   https://doi.org/10.1128/MRA.00424-21  

   Pratt, Alyssa A.; Torrance, Ellis L.; Kasun, George W.; Stedman, Kenneth M.; de la Higuera, Ignacio (July 2021, Microbiology Resource Announcements)

   Roux, Simon (Ed.)

   ABSTRACT Nucleic acid secondary structures play important roles in regulating biological processes. StemLoop-Finder is a computational tool to recognize and annotate conserved structural motifs in large data sets. The program is optimized for the detection of stem-loop structures that may serve as origins of replication in circular replication-associated protein (Rep)-encoding single-stranded (CRESS) DNA viruses. 

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2. Population ecology and potential biogeochemical impacts of ssDNA and dsDNA soil viruses along a permafrost thaw gradient

   https://doi.org/10.1101/2023.06.13.544858  

   Trubl, Gareth; Roux, Simon; Borton, Mikayla A; Varsani, Arvind; Li, Yueh-Fen; Sun, Christine; Jang, Ho Bin; Woodcroft, Ben J; Tyson, Gene W; Wrighton, Kelly C; et al (June 2023, bioRxiv)

   Abstract Climate change is disproportionately warming northern peatlands, which may release large carbon stores via increased microbial activity. While there are many unknowns about such microbial responses, virus roles are especially poorly characterized with studies to date largely restricted to “bycatch” from bulk metagenomes. Here, we used optimized viral particle purification techniques on 20 samples along a highly contextualized peatland permafrost thaw gradient, extracted and sequenced viral particle DNA using two library kits to capture single-stranded (ssDNA) and double-stranded (dsDNA) virus genomes (40 total viromes), and explored their diversity and potential ecosystem impacts. Both kits recovered similar dsDNA virus numbers, but only one also captured thousands of ssDNA viruses. Combining these data, we explored population-level ecology using genomic representation from 9,560 viral operational taxonomic units (vOTUs); nearly a 4-fold expansion from permafrost-associated soils, and 97% of which were novel when compared against large datasets from soils, oceans, and the human gut.In silicopredictions identified putative hosts for 44% (4,149 dsDNA + 17 ssDNA) of the identified vOTUs spanning 2 eukaryotic, 12 archaeal, and 30 bacterial phyla. The recovered vOTUs encoded 1,684 putative auxiliary metabolic genes (AMGs) and other metabolic genes carried by ∼10% of detected vOTUs, of which 46% were related to carbon processing and 644 were novel. These AMGs grouped into five functional categories and 11 subcategories, and nearly half (47%) of the AMGs were involved in carbon utilization. Of these, 112 vOTUs encoded 123 glycoside hydrolases spanning 15 types involved in the degradation of polysaccharides (e.g., cellulose) to monosaccharides (e.g., galactose), or further monosaccharide degradation, which suggests virus involvement in myriad metabolisms including fermentation and central carbon metabolism. These findings expand the scope of viral roles in microbial carbon processing and suggest viruses may be critical for understanding the fate of soil organic carbon in peatlands. 

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3. The Effects of Packaged, but Misguided, Single-Stranded DNA Genomes Are Transmitted to the Outer Surface of the ϕX174 Capsid

   https://doi.org/10.1128/JVI.00883-21  

   Ogunbunmi, Elizabeth T.; Roznowski, Aaron P.; Fane, Bentley A. (August 2021, Journal of Virology)

   Sandri-Goldin, Rozanne M. (Ed.)

   ABSTRACT Most icosahedral viruses condense their genomes into volumetrically constrained capsids. However, concurrent genome biosynthesis and packaging are specific to single-stranded DNA (ssDNA) viruses. ssDNA genome packaging combines elements found in both double-stranded DNA (dsDNA) and ssRNA systems. Similar to dsDNA viruses, the genome is packaged into a preformed capsid. Like ssRNA viruses, there are numerous capsid-genome associations. In ssDNA microviruses, the DNA-binding protein J guides the genome between 60 icosahedrally ordered DNA binding pockets. It also partially neutralizes the DNA’s negative phosphate backbone. ϕX174-related microviruses, such as G4 and α3, have J proteins that differ in length and charge organization. This suggests that interchanging J proteins could alter the path used to guide DNA in the capsid. Previously, a ϕXG4J chimera, in which the ϕX174 J gene was replaced with the G4 gene, was characterized. It displayed lethal packaging defects, which resulted in procapsids being removed from productive assembly. Here, we report the characterization of another inviable chimera, ϕXα3J. Unlike ϕXG4J, ϕXα3J efficiently packaged DNA but produced noninfectious particles. These particles displayed a reduced ability to attach to host cells, suggesting that internal DNA organization could distort the capsid’s outer surface. Mutations that restored viability altered J-coat protein contact sites. These results provide evidence that the organization of ssDNA can affect both packaging and postpackaging phenomena. IMPORTANCE ssDNA viruses utilize icosahedrally ordered protein-nucleic acids interactions to guide and organize their genomes into preformed shells. As previously demonstrated, chaotic genome-capsid associations can inhibit ϕX174 packaging by destabilizing packaging complexes. However, the consequences of poorly organized genomes may extend beyond the packaging reaction. As demonstrated herein, it can lead to uninfectious packaged particles. Thus, ssDNA genomes should be considered an integral and structural virion component, affecting the properties of the entire particle, which includes the capsid’s outer surface. 

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4. Unprecedented Diversity of ssDNA Phages from the Family Microviridae Detected within the Gut of a Protochordate Model Organism (Ciona robusta)

   https://doi.org/10.3390/v10080404  

   Creasy, Alexandria; Rosario, Karyna; Leigh, Brittany; Dishaw, Larry; Breitbart, Mya (August 2018, Viruses)

   Phages (viruses that infect bacteria) play important roles in the gut ecosystem through infection of bacterial hosts, yet the gut virome remains poorly characterized. Mammalian gut viromes are dominated by double-stranded DNA (dsDNA) phages belonging to the order Caudovirales and single-stranded DNA (ssDNA) phages belonging to the family Microviridae. Since the relative proportion of each of these phage groups appears to correlate with age and health status in humans, it is critical to understand both ssDNA and dsDNA phages in the gut. Building upon prior research describing dsDNA viruses in the gut of Ciona robusta, a marine invertebrate model system used to study gut microbial interactions, this study investigated ssDNA phages found in the Ciona gut. We identified 258 Microviridae genomes, which were dominated by novel members of the Gokushovirinae subfamily, but also represented several proposed phylogenetic groups (Alpavirinae, Aravirinae, Group D, Parabacteroides prophages, and Pequeñovirus) and a novel group. Comparative analyses between Ciona specimens with full and cleared guts, as well as the surrounding water, indicated that Ciona retains a distinct and highly diverse community of ssDNA phages. This study significantly expands the known diversity within the Microviridae family and demonstrates the promise of Ciona as a model system for investigating their role in animal health. 

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5. VirSorter2: a multi-classifier, expert-guided approach to detect diverse DNA and RNA viruses

   https://doi.org/10.1186/s40168-020-00990-y  

   Guo, Jiarong; Bolduc, Ben; Zayed, Ahmed A.; Varsani, Arvind; Dominguez-Huerta, Guillermo; Delmont, Tom O.; Pratama, Akbar Adjie; Gazitúa, M. Consuelo; Vik, Dean; Sullivan, Matthew B.; et al (December 2021, Microbiome)

   null (Ed.)

   Abstract Background Viruses are a significant player in many biosphere and human ecosystems, but most signals remain “hidden” in metagenomic/metatranscriptomic sequence datasets due to the lack of universal gene markers, database representatives, and insufficiently advanced identification tools. Results Here, we introduce VirSorter2, a DNA and RNA virus identification tool that leverages genome-informed database advances across a collection of customized automatic classifiers to improve the accuracy and range of virus sequence detection. When benchmarked against genomes from both isolated and uncultivated viruses, VirSorter2 uniquely performed consistently with high accuracy (F1-score > 0.8) across viral diversity, while all other tools under-detected viruses outside of the group most represented in reference databases (i.e., those in the order Caudovirales ). Among the tools evaluated, VirSorter2 was also uniquely able to minimize errors associated with atypical cellular sequences including eukaryotic genomes and plasmids. Finally, as the virosphere exploration unravels novel viral sequences, VirSorter2’s modular design makes it inherently able to expand to new types of viruses via the design of new classifiers to maintain maximal sensitivity and specificity. Conclusion With multi-classifier and modular design, VirSorter2 demonstrates higher overall accuracy across major viral groups and will advance our knowledge of virus evolution, diversity, and virus-microbe interaction in various ecosystems. Source code of VirSorter2 is freely available ( https://bitbucket.org/MAVERICLab/virsorter2 ), and VirSorter2 is also available both on bioconda and as an iVirus app on CyVerse ( https://de.cyverse.org/de ). 

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