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375 related items for PubMed ID: 33676867

  • 1. High cellulolytic potential of the Ktedonobacteria lineage revealed by genome-wide analysis of CAZymes.
    Zheng Y, Maruoka M, Nanatani K, Hidaka M, Abe N, Kaneko J, Sakai Y, Abe K, Yokota A, Yabe S.
    J Biosci Bioeng; 2021 Jun; 131(6):622-630. PubMed ID: 33676867
    [Abstract] [Full Text] [Related]

  • 2. Comparative analysis of fungal genomes reveals different plant cell wall degrading capacity in fungi.
    Zhao Z, Liu H, Wang C, Xu JR.
    BMC Genomics; 2013 Apr 23; 14():274. PubMed ID: 23617724
    [Abstract] [Full Text] [Related]

  • 3. "Candidatus Paraporphyromonas polyenzymogenes" encodes multi-modular cellulases linked to the type IX secretion system.
    Naas AE, Solden LM, Norbeck AD, Brewer H, Hagen LH, Heggenes IM, McHardy AC, Mackie RI, Paša-Tolić L, Arntzen MØ, Eijsink VGH, Koropatkin NM, Hess M, Wrighton KC, Pope PB.
    Microbiome; 2018 Mar 01; 6(1):44. PubMed ID: 29490697
    [Abstract] [Full Text] [Related]

  • 4. Analysis of carbohydrate-active enzymes in Thermogemmatispora sp. strain T81 reveals carbohydrate degradation ability.
    Tomazini A, Lal S, Munir R, Stott M, Henrissat B, Polikarpov I, Sparling R, Levin DB.
    Can J Microbiol; 2018 Dec 01; 64(12):992-1003. PubMed ID: 30338698
    [Abstract] [Full Text] [Related]

  • 5. Thermosporothrix hazakensis gen. nov., sp. nov., isolated from compost, description of Thermosporotrichaceae fam. nov. within the class Ktedonobacteria Cavaletti et al. 2007 and emended description of the class Ktedonobacteria.
    Yabe S, Aiba Y, Sakai Y, Hazaka M, Yokota A.
    Int J Syst Evol Microbiol; 2010 Aug 01; 60(Pt 8):1794-1801. PubMed ID: 19767365
    [Abstract] [Full Text] [Related]

  • 6. Carbohydrate-active enzymes in Trichoderma harzianum: a bioinformatic analysis bioprospecting for key enzymes for the biofuels industry.
    Ferreira Filho JA, Horta MAC, Beloti LL, Dos Santos CA, de Souza AP.
    BMC Genomics; 2017 Oct 12; 18(1):779. PubMed ID: 29025413
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  • 8. Depiction of carbohydrate-active enzyme diversity in Caldicellulosiruptor sp. F32 at the genome level reveals insights into distinct polysaccharide degradation features.
    Meng DD, Ying Y, Zhang KD, Lu M, Li FL.
    Mol Biosyst; 2015 Nov 12; 11(11):3164-73. PubMed ID: 26392378
    [Abstract] [Full Text] [Related]

  • 9. The complete genome sequence of Fibrobacter succinogenes S85 reveals a cellulolytic and metabolic specialist.
    Suen G, Weimer PJ, Stevenson DM, Aylward FO, Boyum J, Deneke J, Drinkwater C, Ivanova NN, Mikhailova N, Chertkov O, Goodwin LA, Currie CR, Mead D, Brumm PJ.
    PLoS One; 2011 Apr 19; 6(4):e18814. PubMed ID: 21526192
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  • 11. The Maize Pathogen Ustilago maydis Secretes Glycoside Hydrolases and Carbohydrate Oxidases Directed toward Components of the Fungal Cell Wall.
    Reyre JL, Grisel S, Haon M, Navarro D, Ropartz D, Le Gall S, Record E, Sciara G, Tranquet O, Berrin JG, Bissaro B.
    Appl Environ Microbiol; 2022 Dec 13; 88(23):e0158122. PubMed ID: 36354345
    [Abstract] [Full Text] [Related]

  • 12. Transcriptome and secretome analysis of Aspergillus fumigatus in the presence of sugarcane bagasse.
    de Gouvêa PF, Bernardi AV, Gerolamo LE, de Souza Santos E, Riaño-Pachón DM, Uyemura SA, Dinamarco TM.
    BMC Genomics; 2018 Apr 03; 19(1):232. PubMed ID: 29614953
    [Abstract] [Full Text] [Related]

  • 13. Genome Sequence of Microbulbifer mangrovi DD-13T Reveals Its Versatility to Degrade Multiple Polysaccharides.
    Imran M, Pant P, Shanbhag YP, Sawant SV, Ghadi SC.
    Mar Biotechnol (NY); 2017 Feb 03; 19(1):116-124. PubMed ID: 28161851
    [Abstract] [Full Text] [Related]

  • 14. Cellulose degradation in Gastrophysa viridula (Coleoptera: Chrysomelidae): functional characterization of two CAZymes belonging to glycoside hydrolase family 45 reveals a novel enzymatic activity.
    Busch A, Kunert G, Wielsch N, Pauchet Y.
    Insect Mol Biol; 2018 Oct 03; 27(5):633-650. PubMed ID: 29774620
    [Abstract] [Full Text] [Related]

  • 15. Recombinant Trichoderma harzianum endoglucanase I (Cel7B) is a highly acidic and promiscuous carbohydrate-active enzyme.
    Pellegrini VO, Serpa VI, Godoy AS, Camilo CM, Bernardes A, Rezende CA, Junior NP, Franco Cairo JP, Squina FM, Polikarpov I.
    Appl Microbiol Biotechnol; 2015 Nov 03; 99(22):9591-604. PubMed ID: 26156238
    [Abstract] [Full Text] [Related]

  • 16. Microbial carbohydrate active enzyme (CAZyme) genes and diversity from Menagesha Suba natural forest soils of Ethiopia as revealed by shotgun metagenomic sequencing.
    Sime AM, Kifle BA, Woldesemayat AA, Gemeda MT.
    BMC Microbiol; 2024 Aug 01; 24(1):285. PubMed ID: 39090559
    [Abstract] [Full Text] [Related]

  • 17. Cellulose- and xylan-degrading yeasts: Enzymes, applications and biotechnological potential.
    Šuchová K, Fehér C, Ravn JL, Bedő S, Biely P, Geijer C.
    Biotechnol Adv; 2022 Oct 01; 59():107981. PubMed ID: 35580749
    [Abstract] [Full Text] [Related]

  • 18. Carbohydrate Binding Modules: Diversity of Domain Architecture in Amylases and Cellulases From Filamentous Microorganisms.
    Sidar A, Albuquerque ED, Voshol GP, Ram AFJ, Vijgenboom E, Punt PJ.
    Front Bioeng Biotechnol; 2020 Oct 01; 8():871. PubMed ID: 32850729
    [Abstract] [Full Text] [Related]

  • 19. The Influence of Temperature and Nitrogen Source on Cellulolytic Potential of Microbiota Isolated from Natural Environment.
    Wita A, Białas W, Wilk R, Szychowska K, Czaczyk K.
    Pol J Microbiol; 2019 Oct 01; 68(1):105-114. PubMed ID: 31050258
    [Abstract] [Full Text] [Related]

  • 20. Fibrobacter sp. HC4, a newly isolated strain, demonstrates a high cellulolytic activity as revealed by enzymatic measurements and in vitro assay.
    Froidurot A, Jacotot E, Julliand S, Grimm P, Julliand V.
    Appl Environ Microbiol; 2024 Aug 21; 90(8):e0051424. PubMed ID: 39082812
    [Abstract] [Full Text] [Related]

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