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1. Draft genome assemblies from seven Bacillaceae isolates from woodland soil

   https://doi.org/10.1128/mra.00289-25  

   McLoon, Anna L; Barker, Julia M; Churan, Gillian M; Cucca, Anthony; Gardner, Lillian; Gejo, Justin; Gerbasi, Francesca; Higgins, Michaela; Kronau, Lillian; Le, Jalin; et al (May 2025, Microbiology Resource Announcements)

   Roux, Simon (Ed.)

   ABSTRACT We isolated seven endospore-forming bacteria from campus woodland and sequenced their genomes using Illumina NextSeq. We share the draft genome assemblies for strainsBacillus wiedmanii_SC129,Bacillus pseudomycoides_SC131,Bacillus pumilis_SC133,Peribacillus butanolivorans_SC135,Bacillus thuringiensis_SC136,Priestia megaterium_SC138, andBacillus wiedmanii_SC141. Draft genome sizes range from 3,645,032 to 5,969,865 bp, with GC content between 34.8% and 41.2%. 

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2. Tersicoccus phoenicis (Actinobacteria), a spacecraft clean room isolate, exhibits dormancy

   https://doi.org/10.1128/spectrum.01692-25  

   Tirumalai, Madhan; Ali, Sahar; Fox, George E; Widger, William (August 2025, Microbiology Spectrum)

   Tischler, Dirk (Ed.)

   ABSTRACT Space missions or spacecraft equipment destined for sensitive environments, such as Mars, Europa, or Enceladus, are required to be designed to avoid forward contamination. Spacecraft are assembled in clean rooms (SACs) employing treatments to eliminate microbial contamination. However, some organisms can survive the cleaning procedures. Characterization of these populations, through both culture-based and sequencing methods, reveals that the majority consists of spore-forming bacteria. However, a smaller group of non-spore-forming organisms, primarily classified within the orderMicrococcalesof the phylumActinobacteria(Actinomycetota), exists in some SACs. Despite their repeated occurrence and isolation, actinobacterial strains associated with SACs have not been studied for their dormancy potential. Here, we show for the first time that a non-spore-forming SAC isolate,Tersicoccus phoenicis(Micrococcales), enters dormancy under nutrient starvation. Dormancy inMicrococcus luteusinvolves a universal stress protein and a resuscitation-promoting factor (Rpf). Genes for these proteins are widely found in actinobacteria, includingT. phoenicis. We show that dormantT. phoenicis(Micrococcales) can be revived through the addition of the Rpf to the media. Dormancy, as observed in the SAC actinobacterial isolateT. phoenicis, could well be a common trait adopted by other actinobacterial strains under the stressful conditions of spacecraft clean rooms or the ISS (International Space Station). This has implications for the persistence, identification, and recovery of such microbes from cleanroom facilities.IMPORTANCENASA’s long-range goal of a human mission to the Mars surface raises issues relating to planetary protection. The concerns of forward contamination require that spacecraft assembly clean rooms (SACs) be maintained to inhibit microbial survival. However, despite these efforts, distinct microbial communities persist. Here, we show that a SAC isolate,T. phoenicis, exhibits dormancy, a state in which the cells are viable but not cultivable. Dormancy may help non-spore-forming organisms survive in the clean room environments utilized for space missions. This has implications for improving cleaning procedures. 

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3. Draft genome of Conoideocrella luteorostrata ARSEF 14590 (Clavicipitaceae), an entomopathogenic fungus with a wealth of biosynthetic and biocontrol potential

   https://doi.org/10.1128/mra.01273-24  

   Lovett, Brian; Stajich, Jason E; Barrett, Hana; Kasson, Lindsay R; Panaccione, Daniel G; Reiter, Cecilia A; Fuss, Jessica L; Biddle, Gregory; Kasson, Matt T (August 2025, Microbiology Resource Announcements)

   Bruno, Vincent Michael (Ed.)

   ABSTRACT The fungusConoideocrella luteorostratais a recently discovered pathogen of invasive elongate hemlock scale insects (EHS;Fiorinia externa) in Christmas tree farms in the eastern U.S. Here, we report a scaffold-level genome and assembly along with an initial survey of biosynthetic gene clusters for strain ARSEF 14590 from EHS. 

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4. Genome content reorganization in the non-model ciliate Chilodonella uncinata : insights into nuclear architecture, DNA content, and chromosome fragmentation during macronuclear development

   https://doi.org/10.1128/msphere.00075-25  

   Ahsan, Ragib; Maurer-Alcalá, Xyrus X; Katz, Laura A (June 2025, mSphere)

   Ciliates are a model lineage for studies of genome architecture given their unusual genome structures. All ciliates have both somatic macronuclei (MAC) and germline micronuclei (MIC), both of which develop from a zygotic nucleus following sex (i.e., conjugation). Nuclear developmental stages are not well documented among non-model ciliates, includingChilodonella uncinata(class Phyllopharyngea), the focus of our work. Here, we characterize nuclear architecture and genome dynamics inC. uncinataby combining 4′,6-diamidino-2-phenylindole (DAPI) staining and fluorescencein situhybridization (FISH) techniques with confocal microscopy. We developed a telomere probe for staining, which alongside DAPI allows for the identification of fragmented somatic chromosomes among the total DNA in the nuclei. We quantify both total DNA and telomere-bound signals from more than 250 nuclei sampled from 116 individual cells, and analyze changes in DNA content and nuclear architecture acrossChilodonella’s nuclear life cycle. Specifically, we find that MAC developmental stages in the ciliateC. uncinataare different from those reported from other ciliate species. These data provide insights into nuclear dynamics during development and enrich our understanding of genome evolution in non-model ciliates. IMPORTANCECiliates are a clade of diverse single-celled eukaryotic microorganisms that contain at least one somatic macronucleus (MAC) and germline micronucleus (MIC) within each cell/organism. Ciliates rely on complex genome rearrangements to generate somatic genomes from a zygotic nucleus. However, the development of somatic nuclei has only been documented for a few model ciliate genera, includingParamecium,Tetrahymena, andOxytricha. Here, we study the MAC developmental process in the non-model ciliate,C. uncinata. We analyze both total DNA and the generation of gene-sized somatic chromosomes using a laser scanning confocal microscope to describeC. uncinata’s nuclear life cycle. We show that DNA content changes dramatically during their life cycle and in a manner that differs from previous studies on model ciliates. Our study expands knowledge of genome dynamics in ciliates and among eukaryotes more broadly. 

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5. Genome annotation of Aspergillus melleus strain CBS 546.65

   https://doi.org/10.1128/mra.00519-25  

   Stajich, Jason E; Garvey, Sean M; Gil-Serna, Jéssica (October 2025, Microbiology Resource Announcements)

   Pritchard, Leighton (Ed.)

   ABSTRACT The fungusAspergillus melleusis an important biosynthesis host for varied commercial applications. Gene annotation of a previously published genome produced 12,841 protein-coding genes and identified 102 biosynthetic gene clusters. 

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