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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

229 related items for PubMed ID: 30988376

  • 41. Genome sequence of the pattern forming Paenibacillus vortex bacterium reveals potential for thriving in complex environments.
    Sirota-Madi A, Olender T, Helman Y, Ingham C, Brainis I, Roth D, Hagi E, Brodsky L, Leshkowitz D, Galatenko V, Nikolaev V, Mugasimangalam RC, Bransburg-Zabary S, Gutnick DL, Lancet D, Ben-Jacob E.
    BMC Genomics; 2010 Dec 17; 11():710. PubMed ID: 21167037
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  • 42. A single amino acid mutation in Spo0A results in sporulation deficiency of Paenibacillus polymyxa SC2.
    Hou X, Yu X, Du B, Liu K, Yao L, Zhang S, Selin C, Fernando WG, Wang C, Ding Y.
    Res Microbiol; 2016 Dec 17; 167(6):472-9. PubMed ID: 27208661
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  • 43. Rampant Host Switching Shaped the Termite Gut Microbiome.
    Bourguignon T, Lo N, Dietrich C, Šobotník J, Sidek S, Roisin Y, Brune A, Evans TA.
    Curr Biol; 2018 Feb 19; 28(4):649-654.e2. PubMed ID: 29429621
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  • 44. Paenibacillus polymyxa biofilm polysaccharides antagonise Fusarium graminearum.
    Timmusk S, Copolovici D, Copolovici L, Teder T, Nevo E, Behers L.
    Sci Rep; 2019 Jan 24; 9(1):662. PubMed ID: 30679760
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  • 45. Comparison of Intracellular "Ca. Endomicrobium Trichonymphae" Genomovars Illuminates the Requirement and Decay of Defense Systems against Foreign DNA.
    Izawa K, Kuwahara H, Kihara K, Yuki M, Lo N, Itoh T, Ohkuma M, Hongoh Y.
    Genome Biol Evol; 2016 Oct 13; 8(10):3099-3107. PubMed ID: 27635050
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  • 49. A genomic perspective on the potential of termite-associated Cellulosimicrobium cellulans MP1 as producer of plant biomass-acting enzymes and exopolysaccharides.
    Vu NT, Quach TN, Dao XT, Le HT, Le CP, Nguyen LT, Le LT, Ngo CC, Hoang H, Chu HH, Phi QT.
    PeerJ; 2021 Oct 13; 9():e11839. PubMed ID: 34395081
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  • 50. Insight into metabolic pathways of the potential biofuel producer, Paenibacillus polymyxa ICGEB2008.
    Adlakha N, Pfau T, Ebenhöh O, Yazdani SS.
    Biotechnol Biofuels; 2015 Oct 13; 8():159. PubMed ID: 26413158
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  • 51. Positive and negative regulation of transferred nif genes mediated by indigenous GlnR in Gram-positive Paenibacillus polymyxa.
    Wang T, Zhao X, Shi H, Sun L, Li Y, Li Q, Zhang H, Chen S, Li J.
    PLoS Genet; 2018 Sep 13; 14(9):e1007629. PubMed ID: 30265664
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  • 53. Paenibacillus polymyxa, a Jack of all trades.
    Langendries S, Goormachtig S.
    Environ Microbiol; 2021 Oct 13; 23(10):5659-5669. PubMed ID: 33684235
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  • 57. Inactivation of Escherichia coli O157:H7 on stainless steel upon exposure to Paenibacillus polymyxa biofilms.
    Kim S, Bang J, Kim H, Beuchat LR, Ryu JH.
    Int J Food Microbiol; 2013 Nov 01; 167(3):328-36. PubMed ID: 24184611
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  • 58. Proteomic analyses of the interaction between the plant-growth promoting rhizobacterium Paenibacillus polymyxa E681 and Arabidopsis thaliana.
    Kwon YS, Lee DY, Rakwal R, Baek SB, Lee JH, Kwak YS, Seo JS, Chung WS, Bae DW, Kim SG.
    Proteomics; 2016 Jan 01; 16(1):122-35. PubMed ID: 26460066
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  • 59. Genome Analysis of Endomicrobium proavitum Suggests Loss and Gain of Relevant Functions during the Evolution of Intracellular Symbionts.
    Zheng H, Dietrich C, Brune A.
    Appl Environ Microbiol; 2017 Sep 01; 83(17):. PubMed ID: 28646115
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  • 60. Dominant ectosymbiotic bacteria of cellulolytic protists in the termite gut also have the potential to digest lignocellulose.
    Yuki M, Kuwahara H, Shintani M, Izawa K, Sato T, Starns D, Hongoh Y, Ohkuma M.
    Environ Microbiol; 2015 Dec 01; 17(12):4942-53. PubMed ID: 26079531
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