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Bibliographic Details
Main Authors: Hiralal, Anwar, Ley, Philip, van Dijk, Jesper R, Li, Cheng, Pankratov, Dmitrii, Alingapoyil Choyikutty, Jiji, Pankratova, Galina, Geelhoed, Jeanine S, Vasquez-Cardenas, Diana, Reimers, Clare E, Meysman, Filip J R
Format: Artículo científico
Language:en
Published: Applied and environmental microbiology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40261324/
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Table of Contents:
  • A novel cable bacteria species with a distinct morphology and genomic potential. Hiralal, Anwar Ley, Philip van Dijk, Jesper R Li, Cheng Pankratov, Dmitrii Alingapoyil Choyikutty, Jiji Pankratova, Galina Geelhoed, Jeanine S Vasquez-Cardenas, Diana Reimers, Clare E Meysman, Filip J R Phylogeny Genome, Bacterial Geologic Sediments RNA, Ribosomal, 16S Bacteria Genomics Cable bacteria form a group of multicellular prokaryotes that enable electron transfer over centimeter-scale distances within marine and freshwater sediments. To this end, the periplasm of these filamentous bacteria contains specialized conductive fibers, which extend along the full length of each filament and incorporate a novel Ni-containing NiBiD cofactor. Currently, the cable bacteria include two recognized genera, Electrothrix and Electronema, but the genetic and morphological diversity within the clade remains underexplored. Here, we report the isolation and characterization of a novel cable bacteria species from an intertidal estuarine mudflat within Yaquina Bay (Oregon, USA). A clonal enrichment culture of a single strain (designated YB6) was generated, and filaments were subjected to genomic, morphological, spectroscopic, and electrical characterization. Strain YB6 shares key physiological traits with other cable bacteria, such as long-distance electron conduction and the presence of the nickel bis(dithiolene) cofactor. At the same time, YB6 exhibits distinctive morphological features, including pronounced surface ridges that are up to three times wider than in other cable bacteria. Additionally, filaments are extensively enveloped by extracellular sheaths. Genomic analysis reveals that strain YB6 harbors metabolic pathways and genes found in both the . Electrothrix and . Electronema genera. Phylogenetic and phylogenomic analyses indicate that strain YB6 represents a novel species (average nucleotide identity