Bacteriophages of Gordonia spp. Display a Spectrum of Diversity and Genetic Relationships

Isolation and Annotation of Arthrobacter globiformis Phage AWGoat

AWGoat, a lytic bacteriophage that infects Arthrobacter globiformis, was isolated from a goat pen in Charlotte, NC. Its genome is 65,496 bp long, with a GC content of 67.1%. Based on gene content similarity, AWGoat is assigned to actinobacteriophage cluster AP. It encodes a putative toxin from a broadly distributed toxin/antitoxin pair and an unusually large minor tail protein.

Complete Genome Sequences of Mycobacterium smegmatis Phages Dove and Issimir

We announce the discovery of two mycobacteriophages isolated from soil in Rock Hill, South Carolina. Phage Dove has a genome sequence length of 108,976bp, a siphovirus morphology, and a predicted temperate lifecycle. Phage Issimir has a genome sequence length of 155,564bp, a myovirus morphology, and a predicted lytic lifecycle.

Complete Genome Sequences of Two Arthrobacter Phages, assigned to clusters AT and AZ

Two bacteriophages, BeatusComedenti and Cyan, were isolated using Arthrobacter sp. and Arthrobacter globiformis , respectively. BeatusComedenti and Cyan, which contain 100 and 70 putative genes, are assigned to actinobacteriophage clusters AT and AZ1, respectively.

Expanding the Diversity of Actinobacterial Tectiviridae: A Novel Genus from Microbacterium

Six novel Microbacterium phages belonging to the Tectiviridae family were isolated using Microbacterium testaceum as a host. Phages MuffinTheCat, Badulia, DesireeRose, Bee17, SCoupsA, and LuzDeMundo were purified from environmental samples by students participating in the Science Education Alliance Phage Hunters Advancing Genomics and Evolutionary Science (SEA-PHAGES) program at Alliance University, New York. The phages have linear dsDNA genomes 15,438-15,636 bp with 112-120 bp inverted terminal repeats. Transmission electron microscopy (TEM) imaging analysis revealed that the six novel phages have six-sided icosahedral double-layered capsids with an internal lipid membrane that occasionally forms protruding nanotubules. Annotation analysis determined that the novel Microbacterium phages all have 32-34 protein-coding genes and no tRNAs. Like other Tectiviridae, the phage genomes are arranged into two segments and include three highly conserved family genes that encode a DNA polymerase, double jelly-roll major capsid protein, and packaging ATPase. Although the novel bacteriophages have 91.6 to 97.5% nucleotide sequence similarity to each other, they are at most 58% similar to previously characterized Tectiviridae genera. Consequently, these novel Microbacterium phages expand the diversity of the Tectiviridae family, and we propose they form the sixth genus, Zetatectivirus.

Genome Sequence of Gordonia terrae Bacteriophage Wheezy

Bacteriophage Wheezy, a lytic phage with siphoviral morphology isolated using the host Gordonia terrae 3612, has a genome of 67,021 base pairs and is 65.9% GC. The genome sequence of Wheezy aligns most closely with subcluster CR2 phages Tracker and NatB6. Annotation of the full-length genome sequence of Phage Wheezy revealed 92 protein-coding genes and no tRNA genes.

Genome Sequence of Three Siphoviruses in the EE, GA and EA5 Actinobacteriophage Clusters: Biscayne, Bush and GreenIvy

Bacteriophages Biscayne, Bush and GreenIvy were isolated from soil samples in Miami, FL using Microbacterium foliorum NRRL B-24224 as host. Transmission electron microscopy shows siphoviral morphologies for all three phages. Based on gene content similarity to other actinobacteriophages, they are assigned to the EE, GA and EA5 clusters, respectively.

Complete annotated genome sequence of Microbacterium paraoxydans phage Evcara, a cluster GI podovirus isolated from compost

Bacteriophage Evcara is a podovirus isolated on Microbacterium paraoxydans NRRL B-24275. Its genome is 16,285 bp in length and contains 22 predicted protein-coding genes. Evcara, has been assigned to cluster GI with Microbacterium foliorum phages PineapplePizza and Curie that share 10 homologues with the well-characterized Bacillus subtilis phage phi29.

Genome sequences of Arthrobacter globiformis phages JuneStar and Pumpkins in Bismarck, ND

We report the isolation and characteristics of phages JuneStar and Pumpkins, siphoviruses isolated from soil in Bismarck, ND using Arthrobacter globiformis B2979-SEA. Based on gene content similarity, both phages are assigned to actinobacteriophage cluster AZ1. They encode a putative serine integrase that is conserved across cluster AZ1 phages, suggesting a temperate lifestyle.

Comparative genome analysis of cluster EF bacteriophages Ajin and OverHedge isolated from soil in Tennessee

Bacteriophages Ajin and OverHedge were isolated from soil in Tennessee using the bacterium Microbacterium foliorum. Ajin and OverHedge (cluster EF) have a genome of 56,993 bp and 56,559 bp, containing 86 and 81 predicted genes, respectively. The Ajin genome has unique genes, phosphatase and glycosyltransferase, compared to the OverHedge.

Three Cluster O mycobacteriophages isolated in Philadelphia, PA

We report here the discovery and characterization of three novel bacteriophages infecting Mycobacterium smegmatis . These siphoviruses were isolated from soil collected in urban areas around Saint Joseph's University in Philadelphia. Mycobacteriphages Idergollasper, FoulBall, and Schuy are assigned to actinobacteriophage cluster O based on gene content similarity, and have prolate capsids typical for this cluster.

Complete genomes of two cluster AK Arthrobacter phages isolated from soil samples in Newburgh, NY, United States

Two phages belonging to Arthrobacter phage cluster AK were isolated from soil samples collected in Newburgh, NY in 2021. Both are lytic with a genome organization typical of siphoviruses except for two genes encoding minor tail proteins with pyocin-knob domains found early in the genome, before the terminase gene.

Complete genome sequences of Arthrobacter globiformis phages Uzumaki and Argan of cluster AU6

Bacteriophages Uzumaki and Argan infect Arthrobacter globiformis B-2880 isolated from soil samples in Long Island, New York. These bacteriophages have lambda-like morphology with prolate capsid and share 97% gene content similarity. These traits place them in cluster AU6 with other related Arthrobacter phages.

Complete genome sequence of Microbacterium foliorum phage Curie, a podovirus isolated from soil in Spokane, Washington

Bacteriophage Curie is a podovirus that infects Microbacterium foliorum. The Curie genome spans 16,810 bp, has 90 bp terminal inverted repeats, and includes 23 protein-coding genes. Its genome architecture resembles phage PineapplePizza and other phi29-like phages. Together, Curie and PineapplePizza form a new actinobacteriophage Cluster GI.

A Bioinformatic Ecosystem for Bacteriophage Genomics: PhaMMSeqs, Phamerator, pdm_utils, PhagesDB, DEPhT, and PhamClust

The last thirty years have seen a meteoric rise in the number of sequenced bacteriophage genomes, spurred on by both the rise and success of groups working to isolate and characterize phages, and the rapid and significant technological improvements and reduced costs associated with sequencing their genomes. Over the course of these decades, the tools used to glean evolutionary insights from these sequences have grown more complex and sophisticated, and we describe here the suite of computational and bioinformatic tools used extensively by the integrated research-education communities such as SEA-PHAGES and PHIRE, which are jointly responsible for 25% of all complete phage genomes in the RefSeq database. These tools are used to integrate and analyze phage genome data from different sources, for identification and precise extraction of prophages from bacterial genomes, computing "phamilies" of related genes, and displaying the complex nucleotide and amino acid level mosaicism of these genomes. While over 50,000 SEA-PHAGES students have primarily benefitted from these tools, they are freely available for the phage community at large.

Genome sequence of bacteriophage Janeemi isolated on Arthrobacter globiformis from soil collected in New York

Janeemi is a bacteriophage that infects Arthrobacter globiformis B-2880, which was isolated from soil collected in New York City. The genome has a length of 43,877 bp and contains 69 predicted genes. Based on gene content similarity to phages in the actinobacteriophage database, Janeemi is assigned to phage cluster AZ1.

Are Viruses Taxonomic Units? A Protein Domain and Loop-Centric Phylogenomic Assessment

Virus taxonomy uses a Linnaean-like subsumption hierarchy to classify viruses into taxonomic units at species and higher rank levels. Virus species are considered monophyletic groups of mobile genetic elements (MGEs) often delimited by the phylogenetic analysis of aligned genomic or metagenomic sequences. Taxonomic units are assumed to be independent organizational, functional and evolutionary units that follow a 'natural history' rationale. Here, I use phylogenomic and other arguments to show that viruses are not self-standing genetically-driven systems acting as evolutionary units. Instead, they are crucial components of holobionts, which are units of biological organization that dynamically integrate the genetics, epigenetic, physiological and functional properties of their co-evolving members. Remarkably, phylogenomic analyses show that viruses share protein domains and loops with cells throughout history via massive processes of reticulate evolution, helping spread evolutionary innovations across a wider taxonomic spectrum. Thus, viruses are not merely MGEs or microbes. Instead, their genomes and proteomes conduct cellularly integrated processes akin to those cataloged by the GO Consortium. This prompts the generation of compositional hierarchies that replace the 'is-a-kind-of' by a 'is-a-part-of' logic to better describe the mereology of integrated cellular and viral makeup. My analysis demands a new paradigm that integrates virus taxonomy into a modern evolutionarily centered taxonomy of organisms.

Introducing Casbah, Kronus, and MmasiCarm, Members of the Mycobacteriophage Subcluster B3

Background

As part of a large science education effort, bacteriophages that lyse Mycobacterium smegmatis mc2155 continue to be discovered.

Materials and Methods

Phages were isolated from soil samples from urban sites in the Northeastern United States. Their genomes were sequenced, assembled, and bioinformatically compared.

Results

Three lytic siphoviruses belonging to subcluster B3 with high similarity to each other and other B3 mycobacteriophages were isolated. These phages contain double-stranded DNA genomes (68,754 to 69,495 bp) with high GC content (67.4-67.5%) and 102-104 putative protein coding genes. Notable features include a HicA-like toxin and 33 genes exclusive to subcluster B3. One phage had an intein in its terminase sequence.

Conclusions

Genomic analyses of these phages provide insights into genome evolution and horizontal gene transfer (HGT). The networks for HGT are apparently vast and gene specific. Interestingly, a number of genes are found in both B3 and Gordonia DR phages.

A genome-wide cytotoxicity screen of cluster F1 mycobacteriophage Girr reveals novel inhibitors of Mycobacterium smegmatis growth

Over the past decade, thousands of bacteriophage genomes have been sequenced and annotated. A striking observation from this work is that known structural features and functions cannot be assigned for >65% of the encoded proteins. One approach to begin experimentally elucidating the function of these uncharacterized gene products is genome-wide screening to identify phage genes that confer phenotypes of interest like inhibition of host growth. This study describes the results of a screen evaluating the effects of overexpressing each gene encoded by the temperate Cluster F1 mycobacteriophage Girr on the growth of the host bacterium Mycobacterium smegmatis. Overexpression of 29 of the 102 Girr genes (~28% of the genome) resulted in mild to severe cytotoxicity. Of the 29 toxic genes described, 12 have no known function and are predominately small proteins of <125 amino acids. Overexpression of the majority of these 12 cytotoxic no known functions proteins resulted in moderate to severe growth reduction and represent novel antimicrobial products. The remaining 17 toxic genes have predicted functions, encoding products involved in phage structure, DNA replication/modification, DNA binding/gene regulation, or other enzymatic activity. Comparison of this dataset with prior genome-wide cytotoxicity screens of mycobacteriophages Waterfoul and Hammy reveals some common functional themes, though several of the predicted Girr functions associated with cytotoxicity in our report, including genes involved in lysogeny, have not been described previously. This study, completed as part of the HHMI-supported SEA-GENES project, highlights the power of parallel, genome-wide overexpression screens to identify novel interactions between phages and their hosts.

Complete genome sequence of Microbacterium paraoxydans phage Damascus

Phage Damascus was isolated from soil in northwestern Wisconsin using Microbacterium paraoxydans as the host. The Damascus genome is 56,477 bp with 3' single-stranded overhangs and 56.5% G+C content. Damascus was assigned to cluster EL and shares 42.6%-91.7% gene content with the three other phages in this cluster.

Complete genome sequences of seven Microbacterium foliorum phages Albedo, Kenzers, Swervy, Cranjis, JaimeB, Fullmetal, and Stormbreaker

Seven bacteriophages were isolated from soil in Pennsylvania and Wisconsin using the host Microbacterium foliorum. These bacteriophages range in the number of predicted genes encoded, from 25 to 91, and are distributed across actinobacteriophage clusters EB, EC, EE, and EK.

Desert diversity: genome sequence of Gordonia rubripertincta cluster DJ phage Mossy and cluster DV phage Erutan

Lytic bacteriophages Mossy and Erutan were directly isolated from desert soil on Gordonia rubripertincta and characterized by their morphologies and genomes. Mossy, part of the DJ cluster of Actinobacteriophage, has a genome of 61,183 bp. The genome of Erutan, part of the DV cluster, is 66,957 bp.

Complete genome sequence of Mycobacterium smegmatis phage Rummer, a subcluster A3 actinophage

Bacteriophage Rummer is a siphovirus morphology actinophage isolated from Mycobacterium smegmatis. Rummer has a 50,908 base pair genome encoding 89 predicted protein-coding genes and three tRNAs. Based on gene content similarity to sequenced actinobacteriophages, Rummer is assigned to phage subcluster A3.

Genome sequence of Soos: a siphovirus of the CP cluster infecting Gordonia rubripertincta

Novel actinobacteriophage Soos was isolated and purified from Southern Indiana soil using host Gordonia rubripertincta NRRL B-16540. Sequencing revealed a 57,509 bp circularly permuted genome encoding 87 predicted protein-coding genes. Soos is only the third phage in cluster CP, along with phages Clawz and Sting.

Genome sequence of Arthrobacter globiformis phage MaGuCo

MaGuCo is a temperate phage isolated from soil collected in Alton, NH, USA, using Arthrobacter globiformis. Its genome is 43,924 base pairs long and contains 63 protein-encoding genes, 44 of which were assigned putative functions. MaCuGo is assigned to cluster AZ2 based on gene content similarity to actinobacteriophages.

Complete genome sequence of the Microbacterium foliorum bacteriophage Garey24

In this work, we report the discovery and characterization of Garey24, a bacteriophage that forms medium-size plaques with halo rings isolated from a soil sample in Funes, Argentina. Its 41,522 bp circularly permuted genome contains 63 putative protein-coding genes. Based on gene content similarity, Garey24 was assigned to subcluster EA1.

Genome sequence of bacteriophage Djungelskog isolated from an Arthrobacter globiformis culture

Actinobacteriophage Djungelskog was isolated from a sample of degraded organic material in Poughkeepsie, NY, using Arthrobacter globiformis B-2979. Its genome is 54,512 bp and encodes 86 putative protein-coding genes. Djungelskog has a siphovirus morphology and is assigned to cluster AW based on gene content similarity to actinobacteriophages.

Complete genome sequences of Mycobacterium smegmatis phages Ashballer and Bombitas

We report the discovery of two mycobacteriophages isolated from soil in Rock Hill, South Carolina. Ashballer has a genome sequence length of 52,231 bp, while Bombitas is relatively larger at 110,129 bp. Both have siphovirus morphologies and have temperate lifecycles.

Genome sequences of Microbacterium foliorum phages, BabyYoda and Lynlen

BabyYoda and Lynlen are two cluster EB phages that were discovered at Thiel College using Microbacterium foliorum NRRL B-24224. Both BabyYoda and Lynlen are predicted to be lytic, with siphovirus morphologies, with genome sizes of 41,557 and 41,448 base pairs, respectively.

From Cullowhee Creek to Conley: genome sequence and annotation of a cluster DJ Gordonia phage

We report the discovery of Gordonia phage Conley, a siphovirus isolated from Cullowhee Creek in the Fall of 2022. The 60,078bp genome contains 90 predicted protein-coding genes all transcribed in the same direction and has been assigned to genetic cluster DJ based on gene content similarity.

From compost to culver: genome sequence and annotation of a cluster CQ1 Gordonia phage

Phage Culver, with a siphovirus morphology, was isolated using Gordonia terrae CAG3. Culver is assigned to phage cluster CQ1 based on gene content similarity to actinobacteriophages. Notably, Culver is predicted to encode eight tRNAs, lysin A by two adjacent genes, and, unlike other CQ1 phages, two putative integrase genes.

Complete genome sequences of nine Rhodococcus equi phages

We report genomes of nine phages isolated from Actinobacteria Rhodococcus equi NRRL B-16538. Six of these phages belong to actinobacteriophage cluster CR, which otherwise contains Gordonia phages; two form the CF cluster; and one is a singleton. Genome lengths are 62,017-80,980 bp with 63.9%-67.3% GC content.

Complete genome sequences of Streptomyces griseus phages Spelly and Phredrick

We present the complete genome sequences of two viruses with siphovirus morphology, isolated from soils collected in Southwestern Indiana using the host Streptomyces griseus. Spelly is a BE2 cluster phage with a 131,347-bp genome. Phredrick is a BK1 cluster phage with a 128,873-bp genome.

Genome sequences of 31 mycobacteriophages isolated on Mycobacterium smegmatis mc2155 at room temperature

We report the genome sequences of 31 mycobacteriophages isolated on Mycobacterium smegmatis mc2155 at room temperature. The genomes add to the diversity of Clusters A, B, C, G, and K. Collectively, the genomes include 70 novel protein-coding genes that have no close relatives among the actinobacteriophages.

Complete genome sequences and characteristics of mycobacteriophages Diminimus, Dulcita, Glaske16, and Koreni

Complete genome sequences of four novel mycobacteriophages, Diminimus, Dulcita, Glaske16, and Koreni, isolated from soil are presented. All these bacteriophages belong to subcluster M1, except Koreni that belongs to subcluster A4. Moreover, all have siphovirus morphologies, with genome sizes ranging from 51,055 to 81,156 bp.

Genome sequences of bacteriophage Shambre1 and Renna12, isolated from Arthrobacter globiformis

Bacteriophages Shambre1 and Renna12 were isolated from soil in Bismarck, ND, using Arthrobacter globiformis. Genomic characterization and analyses allowed Renna12 to be assigned to phage cluster AS3, while Shambre1, which is not closely related to any phage, is a singleton.

Genome sequence of the lytic bacteriophage Alucard, a cluster EE actinophage

Bacteriophage Alucard is a lytic phage isolated from the soil collected in southern Maine on Microbacterium foliorum NRRL B-24224. Alucard has siphovirus morphology with a 17,363-bp genome encoding 25 putative genes. Based on gene content similarity to actinobacteriophages, Alucard is assigned to cluster EE.

Characterization of the genomes of cluster CT Gordonia terrae phages, Horseradish and Yummy

The genomes of lytic, cluster CT Gordonia terrae phages, Horseradish and Yummy, are 45,764 and 45,878 bp in length, respectively, and each encodes 71 protein-coding genes. The genomes are identical in sequence with the exception of a 38-bp insertion/deletion in the minor tail protein, gp26.

Characterization and genome sequence of Microbacterium foliorum phage Morrigan, of cluster EA6 with siphovirus morphology

Bacteriophage Morrigan, which was isolated from soil using Microbacterium foliorum NRRL B-24224, is lytic with siphovirus morphology. Morrigan's 40,509-bp genome has a GC content of 62.8% and 66 putative protein-coding genes, of which 31 could be assigned putative functions. Based on gene content similarity to actinobacteriophages, Morrigan is assigned to subcluster EA6.

Genome sequences of cluster GA phages Phonegingi and Dropshot

Bacteriophages Phonegingi and Dropshot were isolated from soil in North Carolina using the host Microbacterium foliorum. Both phages have siphovirus morphologies. Based on gene content similarity to one another and to other actinobacteriophages, both phages are assigned to phage cluster GA.

Isolation and genome sequence annotation of SallyK, a newly discovered cluster EG bacteriophage infecting Microbacterium

Discovered from soil in a flower planter in Pocatello, Idaho and using Microbacterium foliorum, SallyK is a lytic bacteriophage with a siphovirus morphology. It has a 62,883 bp-long genome with 103 putative genes. Based on gene content similarity to actinobacteriophages, SallyK is assigned to cluster EG.

A genome-wide overexpression screen reveals Mycobacterium smegmatis growth inhibitors encoded by mycobacteriophage Hammy

During infection, bacteriophages produce diverse gene products to overcome bacterial antiphage defenses, to outcompete other phages, and to take over cellular processes. Even in the best-studied model phages, the roles of most phage-encoded gene products are unknown, and the phage population represents a largely untapped reservoir of novel gene functions. Considering the sheer size of this population, experimental screening methods are needed to sort through the enormous collection of available sequences and identify gene products that can modulate bacterial behavior for downstream functional characterization. Here, we describe the construction of a plasmid-based overexpression library of 94 genes encoded by Hammy, a Cluster K mycobacteriophage closely related to those infecting clinically important mycobacteria. The arrayed library was systematically screened in a plate-based cytotoxicity assay, identifying a diverse set of 24 gene products (representing ∼25% of the Hammy genome) capable of inhibiting growth of the host bacterium Mycobacterium smegmatis. Half of these are related to growth inhibitors previously identified in related phage Waterfoul, supporting their functional conservation; the other genes represent novel additions to the list of known antimycobacterial growth inhibitors. This work, conducted as part of the HHMI-supported Science Education Alliance Gene-function Exploration by a Network of Emerging Scientists (SEA-GENES) project, highlights the value of parallel, comprehensive overexpression screens in exploring genome-wide patterns of phage gene function and novel interactions between phages and their hosts.

Genomic sequence identification of Arthrobacter phage Ascela

Arthrobacter phage Ascela was isolated in North Georgia. Its genome is 44,192 bp with 71 open reading frames and a GC content of 67.4%. It shares 99.29% nucleotide identity with Arthrobacter phage Iter. Actinobacteriophages that share over 50% nucleotide identity are sorted into clusters, with Ascela in cluster AZ and subcluster AZ1.

Genome sequence of Streptomyces BM cluster phage Frankenweenie

Frankenweenie is a newly isolated bacteriophage that infects Streptomyces scabiei RL-34. Frankenweenie was discovered in Gaithersburg, MD, and has 366 genes comprising a 200,048-bp genome. Frankenweenie is grouped in cluster BM and is predicted to possess a unique tailspike protein that potentially widens its host range.

Genome sequences of six cluster CT and two cluster DJ bacteriophages that infect Gordonia rubripertincta

We report the genome sequences of eight bacteriophages isolated using Gordonia rubripertincta NRRL B-16540-SEA. Based on gene content similarity to phages in the Actinobacteriophage database, six of the phages are assigned to phage cluster CT while two are assigned to cluster DJ.

The heterogenous and diverse population of prophages in Mycobacterium genomes

IMPORTANCE

Mycobacterium species include several human pathogens and mycobacteriophages show potential for therapeutic use to control Mycobacterium infections. However, phage infection profiles vary greatly among Mycobacterium abscessus clinical isolates and phage therapies must be personalized for individual patients. Mycobacterium phage susceptibility is likely determined primarily by accessory parts of bacterial genomes, and we have identified the prophage and phage-related genomic regions across sequenced Mycobacterium strains. The prophages are numerous and diverse, especially in M. abscessus genomes, and provide a potentially rich reservoir of new viruses that can be propagated lytically and used to expand the repertoire of therapeutically useful phages.

Genome sequence of bacteriophage Aoka, a cluster FO phage isolated using Arthrobacter globiformis

We report the discovery and genome sequence of bacteriophage Aoka, an actinobacteriophage isolated from a soil sample in Pueblo, Colorado using Arthrobacter globiformis, B2880-SEA. Its genome length is 36,744 base pairs with 54 protein-coding genes. Based on gene content similarity to other actinobacteriophages, Aoka is assigned to cluster FO.

Isolating and characterizing cluster AB Mycobacteriophage NoShow, which encodes lysis proteins shared with cluster H2 phages

We present here Mycobacteriophage NoShow, isolated from a soil sample collected on the Maguire Campus of Saint Joseph's University in Merion Station, Pennsylvania. Even though NoShow's 52,825 bp genome is most similar to phages in cluster AB, its lysA and lysB genes are most similar to phages in cluster H2.

Genome sequence of cluster A15 Gordonia terrae bacteriophage Nebulosus

The temperate Gordonia phage Nebulosus was isolated from soil on Gordonia terrae and is a siphovirus. The genome is 52,175 bp in length, has 62% GC content, and encodes 96 protein-coding genes. Nebulosus encodes a partitioning system, ParABS, which is likely involved in lysogeny maintenance.

Complete genome sequences of Gordonia rubripertincta phages OtterstedtS21 and Patos

We report the genomes of two viruses with siphovirus morphology, OtterstedtS21 and Patos, from Albany, New York, using Gordonia rubripertincta. The genomes of OtterstedtS21 and Patos are ~68 kbp long with 58% GC content. Both phages group with cluster DV based on gene content similarity to phages in the Actinobacteriophage database.

Mycobacteriophage Rita: a cluster F1 phage discovered in North Easton, Massachusetts

Mycobacteriophage Rita infects Mycobacterium smegmatis mc2155 and was isolated from a soil sample collected in North Easton, Massachusetts. Assigned to cluster F1 based on sequence similarity to other phages in the same cluster, Rita has a 58,771 bp genome and encodes 104 genes. Rita is 98% similar to phage Bipolar.