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140 related items for PubMed ID: 31769922

  • 1. Catalytic subunit exchanges in the cellulosomes produced by Ruminiclostridium cellulolyticum suggest unexpected dynamics and adaptability of their enzymatic composition.
    Borne R, Dao Ti MU, Fierobe HP, Vita N, Tardif C, Pagès S.
    FEBS J; 2020 Jun; 287(12):2544-2559. PubMed ID: 31769922
    [Abstract] [Full Text] [Related]

  • 2. Unraveling enzyme discrimination during cellulosome assembly independent of cohesin-dockerin affinity.
    Borne R, Bayer EA, Pagès S, Perret S, Fierobe HP.
    FEBS J; 2013 Nov; 280(22):5764-79. PubMed ID: 24033928
    [Abstract] [Full Text] [Related]

  • 3. Structure-function analyses generate novel specificities to assemble the components of multienzyme bacterial cellulosome complexes.
    Bule P, Cameron K, Prates JAM, Ferreira LMA, Smith SP, Gilbert HJ, Bayer EA, Najmudin S, Fontes CMGA, Alves VD.
    J Biol Chem; 2018 Mar 16; 293(11):4201-4212. PubMed ID: 29367338
    [Abstract] [Full Text] [Related]

  • 4. Indirect ELISA-based approach for comparative measurement of high-affinity cohesin-dockerin interactions.
    Slutzki M, Barak Y, Reshef D, Schueler-Furman O, Lamed R, Bayer EA.
    J Mol Recognit; 2012 Nov 16; 25(11):616-22. PubMed ID: 23108621
    [Abstract] [Full Text] [Related]

  • 5. Cell-surface Attachment of Bacterial Multienzyme Complexes Involves Highly Dynamic Protein-Protein Anchors.
    Cameron K, Najmudin S, Alves VD, Bayer EA, Smith SP, Bule P, Waller H, Ferreira LM, Gilbert HJ, Fontes CM.
    J Biol Chem; 2015 May 22; 290(21):13578-90. PubMed ID: 25855788
    [Abstract] [Full Text] [Related]

  • 6. A cellulosomal double-dockerin module from Clostridium thermocellum shows distinct structural and cohesin-binding features.
    Chen C, Yang H, Dong S, You C, Moraïs S, Bayer EA, Liu YJ, Xuan J, Cui Q, Mizrahi I, Feng Y.
    Protein Sci; 2024 Apr 22; 33(4):e4937. PubMed ID: 38501488
    [Abstract] [Full Text] [Related]

  • 7. The Clostridium cellulolyticum dockerin displays a dual binding mode for its cohesin partner.
    Pinheiro BA, Proctor MR, Martinez-Fleites C, Prates JA, Money VA, Davies GJ, Bayer EA, Fontesm CM, Fierobe HP, Gilbert HJ.
    J Biol Chem; 2008 Jun 27; 283(26):18422-30. PubMed ID: 18445585
    [Abstract] [Full Text] [Related]

  • 8. The cellulosomes: multienzyme machines for degradation of plant cell wall polysaccharides.
    Bayer EA, Belaich JP, Shoham Y, Lamed R.
    Annu Rev Microbiol; 2004 Jun 27; 58():521-54. PubMed ID: 15487947
    [Abstract] [Full Text] [Related]

  • 9. Synergy, structure and conformational flexibility of hybrid cellulosomes displaying various inter-cohesins linkers.
    Molinier AL, Nouailler M, Valette O, Tardif C, Receveur-Bréchot V, Fierobe HP.
    J Mol Biol; 2011 Jan 07; 405(1):143-57. PubMed ID: 20970432
    [Abstract] [Full Text] [Related]

  • 10. The cohesin module is a major determinant of cellulosome mechanical stability.
    Galera-Prat A, Moraïs S, Vazana Y, Bayer EA, Carrión-Vázquez M.
    J Biol Chem; 2018 May 11; 293(19):7139-7147. PubMed ID: 29567834
    [Abstract] [Full Text] [Related]

  • 11. Minimalistic Cellulosome of the Butanologenic Bacterium Clostridium saccharoperbutylacetonicum.
    Levi Hevroni B, Moraïs S, Ben-David Y, Morag E, Bayer EA.
    mBio; 2020 Mar 31; 11(2):. PubMed ID: 32234813
    [Abstract] [Full Text] [Related]

  • 12. Action of designer cellulosomes on homogeneous versus complex substrates: controlled incorporation of three distinct enzymes into a defined trifunctional scaffoldin.
    Fierobe HP, Mingardon F, Mechaly A, Bélaïch A, Rincon MT, Pagès S, Lamed R, Tardif C, Bélaïch JP, Bayer EA.
    J Biol Chem; 2005 Apr 22; 280(16):16325-34. PubMed ID: 15705576
    [Abstract] [Full Text] [Related]

  • 13. Cellulosomes: Highly Efficient Cellulolytic Complexes.
    Alves VD, Fontes CMGA, Bule P.
    Subcell Biochem; 2021 Apr 22; 96():323-354. PubMed ID: 33252735
    [Abstract] [Full Text] [Related]

  • 14. Structural insights into the mechanism of formation of cellulosomes probed by small angle X-ray scattering.
    Hammel M, Fierobe HP, Czjzek M, Finet S, Receveur-Bréchot V.
    J Biol Chem; 2004 Dec 31; 279(53):55985-94. PubMed ID: 15502162
    [Abstract] [Full Text] [Related]

  • 15. Elaborate cellulosome architecture of Acetivibrio cellulolyticus revealed by selective screening of cohesin-dockerin interactions.
    Hamberg Y, Ruimy-Israeli V, Dassa B, Barak Y, Lamed R, Cameron K, Fontes CM, Bayer EA, Fried DB.
    PeerJ; 2014 Dec 31; 2():e636. PubMed ID: 25374780
    [Abstract] [Full Text] [Related]

  • 16. Combining free and aggregated cellulolytic systems in the cellulosome-producing bacterium Ruminiclostridium cellulolyticum.
    Ravachol J, Borne R, Meynial-Salles I, Soucaille P, Pagès S, Tardif C, Fierobe HP.
    Biotechnol Biofuels; 2015 Dec 31; 8():114. PubMed ID: 26269713
    [Abstract] [Full Text] [Related]

  • 17. Adaptor Scaffoldins: An Original Strategy for Extended Designer Cellulosomes, Inspired from Nature.
    Stern J, Moraïs S, Lamed R, Bayer EA.
    mBio; 2016 Apr 05; 7(2):e00083. PubMed ID: 27048796
    [Abstract] [Full Text] [Related]

  • 18. Insights into cellulosome assembly and dynamics: from dissection to reconstruction of the supramolecular enzyme complex.
    Smith SP, Bayer EA.
    Curr Opin Struct Biol; 2013 Oct 05; 23(5):686-94. PubMed ID: 24080387
    [Abstract] [Full Text] [Related]

  • 19. Single Binding Mode Integration of Hemicellulose-degrading Enzymes via Adaptor Scaffoldins in Ruminococcus flavefaciens Cellulosome.
    Bule P, Alves VD, Leitão A, Ferreira LM, Bayer EA, Smith SP, Gilbert HJ, Najmudin S, Fontes CM.
    J Biol Chem; 2016 Dec 23; 291(52):26658-26669. PubMed ID: 27875311
    [Abstract] [Full Text] [Related]

  • 20. Cellulosome from Clostridium cellulolyticum: molecular study of the Dockerin/Cohesin interaction.
    Fierobe HP, Pagès S, Bélaïch A, Champ S, Lexa D, Bélaïch JP.
    Biochemistry; 1999 Sep 28; 38(39):12822-32. PubMed ID: 10504252
    [Abstract] [Full Text] [Related]

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