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1. Eight genome sequences of bacterial, environmental isolates from Canada Glacier, Antarctica

   https://doi.org/10.1128/mra.01130-23  

   Smith, Heidi J; Dieser, Markus; Foreman, Christine M (August 2024, Microbiology Resource Announcements)

   Maresca, Julia A (Ed.)

   ABSTRACT Sediments in cryoconite holes and meltwater streams in the McMurdo Dry Valleys, Antarctica, provide both substrates and conditions that support life in an arid polar desert. Here, we report the genomic sequences of eight environmental, bacterial isolates from Canada Glacier cryoconite holes and stream. These isolates span three major phyla. 

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2. Efficient and cost-effective bacterial mRNA sequencing from low input samples through ribosomal RNA depletion

   https://doi.org/10.1186/s12864-020-07134-4  

   Wangsanuwat, Chatarin; Heom, Kellie A.; Liu, Estella; O’Malley, Michelle A.; Dey, Siddharth S. (October 2020, BMC Genomics)

   Abstract BackgroundRNA sequencing is a powerful approach to quantify the genome-wide distribution of mRNA molecules in a population to gain deeper understanding of cellular functions and phenotypes. However, unlike eukaryotic cells, mRNA sequencing of bacterial samples is more challenging due to the absence of a poly-A tail that typically enables efficient capture and enrichment of mRNA from the abundant rRNA molecules in a cell. Moreover, bacterial cells frequently contain 100-fold lower quantities of RNA compared to mammalian cells, which further complicates mRNA sequencing from non-cultivable and non-model bacterial species. To overcome these limitations, we report EMBR-seq (Enrichment of mRNA by Blocked rRNA), a method that efficiently depletes 5S, 16S and 23S rRNA using blocking primers to prevent their amplification. ResultsEMBR-seq results in 90% of the sequenced RNA molecules from anE. coliculture deriving from mRNA. We demonstrate that this increased efficiency provides a deeper view of the transcriptome without introducing technical amplification-induced biases. Moreover, compared to recent methods that employ a large array of oligonucleotides to deplete rRNA, EMBR-seq uses a single or a few oligonucleotides per rRNA, thereby making this new technology significantly more cost-effective, especially when applied to varied bacterial species. Finally, compared to existing commercial kits for bacterial rRNA depletion, we show that EMBR-seq can be used to successfully quantify the transcriptome from more than 500-fold lower starting total RNA. ConclusionsEMBR-seq provides an efficient and cost-effective approach to quantify global gene expression profiles from low input bacterial samples. 

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3. Dispersal Limitation Governs Bacterial Community Assembly in the Northern Pitcher Plant ( Sarracenia purpurea ) at the Continental Scale

   https://doi.org/10.1111/geb.13922  

   Cagle, Grace_A; McGrew, Alicia; Baiser, Benjamin; Record, Sydne; Gotelli, Nicholas_J; Gravel, Dominique; Bittleston, Leonora_S; Young, Erica_B; Gray, Sarah_M; Freedman, Zachary_B (October 2024, Global Ecology and Biogeography)

   ABSTRACT AimEcological theory suggests that dispersal limitation and selection by climatic factors influence bacterial community assembly at a continental scale, yet the conditions governing the relative importance of each process remains unclear. The carnivorous pitcher plantSarracenia purpureaprovides a model aquatic microecosystem to assess bacterial communities across the host plant's north–south range in North America. This study determined the relative influences of dispersal limitation and environmental selection on the assembly of bacterial communities inhabitingS. purpureapitchers at the continental scale. LocationEastern United States and Canada. Time Period2016. Major Taxa StudiedBacteria inhabitingS. purpureapitchers. MethodsPitcher morphology, fluid, inquilines and prey were measured, and pitcher fluid underwent DNA sequencing for bacterial community analysis. Null modelling of β‐diversity provided estimates for the contributions of selection and dispersal limitation to community assembly, complemented by an examination of spatial clustering of individuals. Phylogenetic and ecological associations of co‐occurrence network module bacteria was determined by assessing the phylogenetic diversity and habitat preferences of member taxa. ResultsDispersal limitation was evident from between‐site variation and spatial aggregation of individual bacterial taxa in theS. purpureapitcher system. Selection pressure was weak across the geographic range, yet network module analysis indicated environmental selection within subgroups. A group of aquatic bacteria held traits under selection in warmer, wetter climates, and midge abundance was associated with selection for traits held by a group of saprotrophs. Processes that increased pitcher fluid volume weakened selection in one module, possibly by supporting greater bacterial dispersal. ConclusionDispersal limitation governed bacterial community assembly inS. purpureapitchers at a continental scale (74% of between‐site comparisons) and was significantly greater than selection across the range. Network modules showed evidence for selection, demonstrating that multiple processes acted concurrently in bacterial community assembly at the continental scale. 

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4. Eight genome sequences of bacterial environmental isolates from Marr Pond, Antarctica

   https://doi.org/10.1128/mra.00135-25  

   Smith, Heidi J; Dieser, Markus; M_Foreman, Christine (June 2025, Microbiology Resource Announcements)

   Thrash, J Cameron (Ed.)

   ABSTRACT Inland meltwater ponds are common throughout the dry valley region of Antarctica, with seasonal meltwater inputs driving their biogeochemistry. Here, we report the genomic sequences of eight environmental bacterial isolates covering three major phyla from Marr Pond, Taylor Valley, Antarctica. 

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5. Critical analysis of polycyclic tetramate macrolactam biosynthetic gene cluster phylogeny and functional diversity

   https://doi.org/10.1128/aem.00600-24  

   Harper, Christopher P; Day, Anna; Tsingos, Maya; Ding, Edward; Zeng, Elizabeth; Stumpf, Spencer D; Qi, Yunci; Robinson, Adam; Greif, Jennifer; Blodgett, Joshua AV (May 2024, Applied and Environmental Microbiology)

   Reguera, Gemma (Ed.)

   ABSTRACT Polycyclic tetramate macrolactams (PTMs) are bioactive natural products commonly associated with certain actinobacterial and proteobacterial lineages. These molecules have been the subject of numerous structure-activity investigations since the 1970s. New members continue to be pursued in wild and engineered bacterial strains, and advances in PTM biosynthesis suggest their outwardly simplistic biosynthetic gene clusters (BGCs) belie unexpected product complexity. To address the origins of this complexity and understand its influence on PTM discovery, we engaged in a combination of bioinformatics to systematically classify PTM BGCs and PTM-targeted metabolomics to compare the products of select BGC types. By comparing groups of producers and BGC mutants, we exposed knowledge gaps that complicate bioinformatics-driven product predictions. In sum, we provide new insights into the evolution of PTM BGCs while systematically accounting for the PTMs discovered thus far. The combined computational and metabologenomic findings presented here should prove useful for guiding future discovery.<bold>IMPORTANCE</bold>Polycyclic tetramate macrolactam (PTM) pathways are frequently found within the genomes of biotechnologically important bacteria, includingStreptomycesandLysobacterspp.Their molecular products are typically bioactive, having substantial agricultural and therapeutic interest. Leveraging bacterial genomics for the discovery of new related molecules is thus desirable, but drawing accurate structural predictions from bioinformatics alone remains challenging. This difficulty stems from a combination of previously underappreciated biosynthetic complexity and remaining knowledge gaps, compounded by a stream of yet-uncharacterized PTM biosynthetic loci gleaned from recently sequenced bacterial genomes. We engaged in the following study to create a useful framework for cataloging historic PTM clusters, identifying new cluster variations, and tracing evolutionary paths for these molecules. Our data suggest new PTM chemistry remains discoverable in nature. However, our metabolomic and mutational analyses emphasize the practical limitations of genomics-based discovery by exposing hidden complexity. 

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