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Teredinibacter turnerae gen. nov., sp. nov., a dinitrogen-fixing, cellulolytic, endosymbiotic c-proteobacterium isolated from the gills of wood-boring molluscs (Bivalvia: Teredinidae) (2005)

Distel, Daniel L. ; Morrill, Wendy ; MacLaren-Toussaint, Noelle ; [et al.]

Society for General Mircobiology

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Publication Date: 2022-05-25

Description: Author Posting. © Society for General Mircobiology, 2002. This article is posted here by permission of Society for General Mircobiology for personal use, not for redistribution. The definitive version was published in International Journal of Systematic Bacteriology 52 (2002): 2261-2269, doi:10.1099/ijs.0.02184-0.

Description: A cellulolytic, dinitrogen-fixing bacterium isolated from the gill tissue of a wood-boring mollusc (shipworm) Lyrodus pedicellatus of the bivalve family Teredinidae and 58 additional strains with similar properties, isolated from gills of 24 bivalve species representing 9 of 14 genera of Teredinidae, are described. The cells are Gram-negative, rigid, rods (0〈4–0〈6x3–6 lm) that bear a single polar flagellum. All isolates are capable of chemoheterotrophic growth in a simple mineral medium supplemented with cellulose as a sole source of carbon and energy. Xylan, pectin, carboxymethylcellulose, cellobiose and a variety of sugars and organic acids also support growth. Growth requires addition of combined nitrogen when cultures are vigorously aerated, but all isolates fix dinitrogen under microaerobic conditions. The pH, temperature and salinity optima for growth were determined for six isolates and are approximately 8〈5, 30–35 °C and 0〈3 M NaCl respectively. The isolates are marine. In addition to NaCl, growth requires elevated concentrations of Ca2M and Mg2M that reflect the chemistry of seawater. The DNA GMC content ranged from 49 to 51 mol%. Four isolates were identical with respect to small-subunit rRNA sequence over 891 positions compared and fall within a unique clade in the c-subclass of the Proteobacteria. Based on morphological, physiological and phylogenetic characteristics and specific symbiotic association with teredinid bivalves, a new genus and species, Teredinibacter turnerae gen. nov., sp. nov., is proposed. The type strain is T7902T (vATCC 39867TvDSM 15152T).

Description: This work was supported by grants from the National Science Foundation no. NSF DEB-9420051 and IBN- 9982982, the Maine Science and Technology Foundation's Center for Innovation in Biotechnology, and the University of Maine's Faculty Research program.

Keywords: Teredinidae ; Bivalvia ; Shipworms ; Symbiont ; 16S rRNA phylogeny

Repository Name: Woods Hole Open Access Server

Type: Article

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Iron stress in open-ocean cyanobacteria (Synechococcus, Trichodesmium, and Crocosphaera spp.) : identification of the IdiA protein (2005)

Webb, Eric A. ; Moffett, James W. ; Waterbury, John B.

American Society for Microbiology

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Publication Date: 2022-05-25

Description: Author Posting. © American Society for Microbiology, 2001. This article is posted here by permission of American Society for Microbiology for personal use, not for redistribution. The definitive version was published in Applied and Environmental Microbiology 67 (2001): 5444-5452, doi:10.1128/AEM.67.12.5444-5452.2001.

Description: Cyanobacteria are prominent constituents of the marine biosphere that account for a significant percentage of oceanic primary productivity. In an effort to resolve how open-ocean cyanobacteria persist in regions where the Fe concentration is thought to be limiting their productivity, we performed a number of Fe stress experiments on axenic cultures of marine Synechococcus spp., Crocosphaera sp., and Trichodesmium sp. Through this work, we determined that all of these marine cyanobacteria mount adaptive responses to Fe stress, which resulted in the induction and/or repression of several proteins. We have identified one of the Fe stress-induced proteins as an IdiA homologue. Genomic observations and laboratory data presented herein from open-ocean Synechococcus spp. are consistent with IdiA having a role in cellular Fe scavenging. Our data indicate that IdiA may make an excellent marker for Fe stress in open-ocean cyanobacterial field populations. By determining how these microorganisms respond to Fe stress, we will gain insight into how and when this important trace element can limit their growth in situ. This knowledge will greatly increase our understanding of how marine Fe cycling impacts oceanic processes, such as carbon and nitrogen fixation.

Description: This work was partially funded by the Woods Hole Oceanographic Institution postdoctoral scholarship and a subcontract from the Center for Bioinorganic Chemistry at Princeton University (grant no. CHE-9810248) to E.A.W. Additional funds were supplied by the Seaver Institute to J.W.M.

Keywords: Cyanobacteria ; Synechococcus spp. ; Crocosphaera sp ; Trichodesmium sp ; Iron stress

Repository Name: Woods Hole Open Access Server

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