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Journal Abstract Search

265 related items for PubMed ID: 32461765

  • 21.
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  • 22. Improvement of Saccharification and Delignification Efficiency of Trichoderma reesei Rut-C30 by Genetic Bioengineering.
    Gopalakrishnan RM, Manavalan T, Ramesh J, Thangavelu KP, Heese K.
    Microorganisms; 2020 Jan 23; 8(2):. PubMed ID: 31979278
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  • 23. Comparative Secretomics Analysis Reveals the Major Components of Penicillium oxalicum 16 and Trichoderma reesei RUT-C30.
    Wang K, Zhang N, Pearce R, Yi S, Zhao X.
    Microorganisms; 2021 Sep 27; 9(10):. PubMed ID: 34683363
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  • 26. 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 Sep 27; 5():15. PubMed ID: 30151221
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  • 27. Simultaneous enhancement of the beta-exo synergism and exo-exo synergism in Trichoderma reesei cellulase to increase the cellulose degrading capability.
    Fang H, Zhao R, Li C, Zhao C.
    Microb Cell Fact; 2019 Jan 18; 18(1):9. PubMed ID: 30657063
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  • 28. Overexpression of an exotic thermotolerant β-glucosidase in trichoderma reesei and its significant increase in cellulolytic activity and saccharification of barley straw.
    Dashtban M, Qin W.
    Microb Cell Fact; 2012 May 20; 11():63. PubMed ID: 22607229
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  • 29. Mechanism of Zn2+ regulation of cellulase production in Trichoderma reesei Rut-C30.
    Li N, Li J, Chen Y, Shen Y, Wei D, Wang W.
    Biotechnol Biofuels Bioprod; 2023 Apr 28; 16(1):73. PubMed ID: 37118821
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  • 30. Improvement of cellulase production in Trichoderma reesei Rut-C30 by overexpression of a novel regulatory gene Trvib-1.
    Zhang F, Zhao X, Bai F.
    Bioresour Technol; 2018 Jan 28; 247():676-683. PubMed ID: 30060399
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  • 31.
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  • 32. Global Reprogramming of Gene Transcription in Trichoderma reesei by Overexpressing an Artificial Transcription Factor for Improved Cellulase Production and Identification of Ypr1 as an Associated Regulator.
    Zhang F, Li JX, Champreda V, Liu CG, Bai FW, Zhao XQ.
    Front Bioeng Biotechnol; 2020 Jan 28; 8():649. PubMed ID: 32719779
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  • 33. Development of a low-cost cellulase production process using Trichoderma reesei for Brazilian biorefineries.
    Ellilä S, Fonseca L, Uchima C, Cota J, Goldman GH, Saloheimo M, Sacon V, Siika-Aho M.
    Biotechnol Biofuels; 2017 Jan 28; 10():30. PubMed ID: 28184245
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  • 34.
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  • 35. Comparative secretome analysis of Trichoderma asperellum S4F8 and Trichoderma reesei Rut C30 during solid-state fermentation on sugarcane bagasse.
    Marx IJ, van Wyk N, Smit S, Jacobson D, Viljoen-Bloom M, Volschenk H.
    Biotechnol Biofuels; 2013 Nov 29; 6(1):172. PubMed ID: 24286470
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  • 38. Characterization and Strain Improvement of a Hypercellulytic Variant, Trichoderma reesei SN1, by Genetic Engineering for Optimized Cellulase Production in Biomass Conversion Improvement.
    Qian Y, Zhong L, Hou Y, Qu Y, Zhong Y.
    Front Microbiol; 2016 Nov 29; 7():1349. PubMed ID: 27621727
    [Abstract] [Full Text] [Related]

  • 39. One-step utilization of non-detoxified pretreated lignocellulose for enhanced cellulolytic enzyme production using recombinant Trichoderma reesei RUT C30 carrying alcohol dehydrogenase and nicotinate phosphoribosyltransferase.
    He J, Liu X, Xia J, Xu J, Xiong P, Qiu Z.
    Bioresour Technol; 2020 Aug 29; 310():123458. PubMed ID: 32380436
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  • 40.
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