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Journal Abstract Search

195 related items for PubMed ID: 30151221

  • 1. Truncation of the transcriptional repressor protein Cre1 in Trichoderma reesei Rut-C30 turns it into an activator.
    Rassinger A, Gacek-Matthews A, Strauss J, Mach RL, Mach-Aigner AR.
    Fungal Biol Biotechnol; 2018; 5():15. PubMed ID: 30151221
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  • 2. A truncated form of the Carbon catabolite repressor 1 increases cellulase production in Trichoderma reesei.
    Mello-de-Sousa TM, Gorsche R, Rassinger A, Poças-Fonseca MJ, Mach RL, Mach-Aigner AR.
    Biotechnol Biofuels; 2014; 7(1):129. PubMed ID: 25342970
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  • 3. The effects of disruption of phosphoglucose isomerase gene on carbon utilisation and cellulase production in Trichoderma reesei Rut-C30.
    Limón MC, Pakula T, Saloheimo M, Penttilä M.
    Microb Cell Fact; 2011 May 24; 10():40. PubMed ID: 21609467
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  • 9. Expression pattern of cellulolytic and xylanolytic genes regulated by transcriptional factors XYR1 and CRE1 are affected by carbon source in Trichoderma reesei.
    Castro Ldos S, Antoniêto AC, Pedersoli WR, Silva-Rocha R, Persinoti GF, Silva RN.
    Gene Expr Patterns; 2014 Mar 24; 14(2):88-95. PubMed ID: 24480777
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  • 10. The glucose repressor gene cre1 of Trichoderma: isolation and expression of a full-length and a truncated mutant form.
    Ilmén M, Thrane C, Penttilä M.
    Mol Gen Genet; 1996 Jun 24; 251(4):451-60. PubMed ID: 8709949
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  • 11. A β-glucosidase hyper-production Trichoderma reesei mutant reveals a potential role of cel3D in cellulase production.
    Li C, Lin F, Li Y, Wei W, Wang H, Qin L, Zhou Z, Li B, Wu F, Chen Z.
    Microb Cell Fact; 2016 Sep 01; 15(1):151. PubMed ID: 27585813
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  • 12. Engineering Trichoderma reesei Rut-C30 with the overexpression of egl1 at the ace1 locus to relieve repression on cellulase production and to adjust the ratio of cellulolytic enzymes for more efficient hydrolysis of lignocellulosic biomass.
    Meng QS, Liu CG, Zhao XQ, Bai FW.
    J Biotechnol; 2018 Nov 10; 285():56-63. PubMed ID: 30194052
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  • 13. Nucleo-cytoplasmic shuttling dynamics of the transcriptional regulators XYR1 and CRE1 under conditions of cellulase and xylanase gene expression in Trichoderma reesei.
    Lichius A, Seidl-Seiboth V, Seiboth B, Kubicek CP.
    Mol Microbiol; 2014 Oct 10; 94(5):1162-78. PubMed ID: 25302561
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  • 15. Enhanced cellulase production in Trichoderma reesei RUT C30 via constitution of minimal transcriptional activators.
    Zhang J, Zhang G, Wang W, Wang W, Wei D.
    Microb Cell Fact; 2018 May 17; 17(1):75. PubMed ID: 29773074
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  • 17. The impact of chromatin remodelling on cellulase expression in Trichoderma reesei.
    Mello-de-Sousa TM, Rassinger A, Pucher ME, dos Santos Castro L, Persinoti GF, Silva-Rocha R, Poças-Fonseca MJ, Mach RL, Nascimento Silva R, Mach-Aigner AR.
    BMC Genomics; 2015 Aug 07; 16(1):588. PubMed ID: 26248555
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  • 18. Effect of the res2 transcription factor gene deletion on protein secretion and stress response in the hyperproducer strain Trichoderma reesei Rut-C30.
    Alharake J, Bidard F, Aouam T, Sénamaud-Beaufort C, Margeot A, Heiss-Blanquet S.
    BMC Microbiol; 2023 Nov 30; 23(1):374. PubMed ID: 38036984
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  • 19. Differential regulation of the cellulase transcription factors XYR1, ACE2, and ACE1 in Trichoderma reesei strains producing high and low levels of cellulase.
    Portnoy T, Margeot A, Seidl-Seiboth V, Le Crom S, Ben Chaabane F, Linke R, Seiboth B, Kubicek CP.
    Eukaryot Cell; 2011 Feb 30; 10(2):262-71. PubMed ID: 21169417
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  • 20. Rational engineering of the Trichoderma reesei RUT-C30 strain into an industrially relevant platform for cellulase production.
    Fonseca LM, Parreiras LS, Murakami MT.
    Biotechnol Biofuels; 2020 Feb 30; 13():93. PubMed ID: 32461765
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