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Journal Abstract Search

229 related items for PubMed ID: 32574526

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  • 5. Comparative transcriptome analysis reveals different strategies for degradation of steam-exploded sugarcane bagasse by Aspergillus niger and Trichoderma reesei.
    Borin GP, Sanchez CC, de Santana ES, Zanini GK, Dos Santos RAC, de Oliveira Pontes A, de Souza AT, Dal'Mas RMMTS, Riaño-Pachón DM, Goldman GH, Oliveira JVC.
    BMC Genomics; 2017 Jun 30; 18(1):501. PubMed ID: 28666414
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  • 6. Comparative Secretome Analysis of Trichoderma reesei and Aspergillus niger during Growth on Sugarcane Biomass.
    Borin GP, Sanchez CC, de Souza AP, de Santana ES, de Souza AT, Paes Leme AF, Squina FM, Buckeridge M, Goldman GH, Oliveira JV.
    PLoS One; 2015 Jun 30; 10(6):e0129275. PubMed ID: 26053961
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  • 8. 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
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  • 9. The influence of Aspergillus niger transcription factors AraR and XlnR in the gene expression during growth in D-xylose, L-arabinose and steam-exploded sugarcane bagasse.
    de Souza WR, Maitan-Alfenas GP, de Gouvêa PF, Brown NA, Savoldi M, Battaglia E, Goldman MH, de Vries RP, Goldman GH.
    Fungal Genet Biol; 2013 Nov 03; 60():29-45. PubMed ID: 23892063
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  • 10. The capability of endophytic fungi for production of hemicellulases and related enzymes.
    Robl D, Delabona Pda S, Mergel CM, Rojas JD, Costa Pdos S, Pimentel IC, Vicente VA, da Cruz Pradella JG, Padilla G.
    BMC Biotechnol; 2013 Oct 31; 13():94. PubMed ID: 24175970
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  • 12. Mild hydrothermal pretreatment of sugarcane bagasse enhances the production of holocellulases by Aspergillus niger.
    de Oliveira Gorgulho Silva C, de Castro Moreira Dos Santos Júnior A, Santana RH, Krüger RH, Fontes W, de Sousa MV, Ricart CAO, Filho EXF.
    J Ind Microbiol Biotechnol; 2019 Nov 31; 46(11):1517-1529. PubMed ID: 31236777
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  • 15. Characterization of the cellulolytic secretome of Trichoderma harzianum during growth on sugarcane bagasse and analysis of the activity boosting effects of swollenin.
    A L Rocha V, N Maeda R, Pereira N, F Kern M, Elias L, Simister R, Steele-King C, Gómez LD, McQueen-Mason SJ.
    Biotechnol Prog; 2016 Mar 31; 32(2):327-36. PubMed ID: 26697775
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  • 16. Production of fermentable sugars from sugarcane bagasse by enzymatic hydrolysis after autohydrolysis and mechanical refining.
    Batalha LA, Han Q, Jameel H, Chang HM, Colodette JL, Borges Gomes FJ.
    Bioresour Technol; 2015 Mar 31; 180():97-105. PubMed ID: 25590426
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  • 17. Utilization of molasses and sugar cane bagasse for production of fungal invertase in solid state fermentation using Aspergillus niger GH1.
    Veana F, Martínez-Hernández JL, Aguilar CN, Rodríguez-Herrera R, Michelena G.
    Braz J Microbiol; 2014 Mar 31; 45(2):373-7. PubMed ID: 25242918
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  • 18. Development of minimal enzyme cocktails for hydrolysis of sulfite-pulped lignocellulosic biomass.
    Chylenski P, Forsberg Z, Ståhlberg J, Várnai A, Lersch M, Bengtsson O, Sæbø S, Horn SJ, Eijsink VGH.
    J Biotechnol; 2017 Mar 20; 246():16-23. PubMed ID: 28219736
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  • 19. Transcriptome analysis of Aspergillus niger grown on sugarcane bagasse.
    de Souza WR, de Gouvea PF, Savoldi M, Malavazi I, de Souza Bernardes LA, Goldman MHS, de Vries RP, de Castro Oliveira JV, Goldman GH.
    Biotechnol Biofuels; 2011 Oct 18; 4():40. PubMed ID: 22008461
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  • 20. Saccharification of biomass using whole solid-state fermentation medium to avoid additional separation steps.
    Pirota RD, Baleeiro FC, Farinas CS.
    Biotechnol Prog; 2013 Oct 18; 29(6):1430-40. PubMed ID: 24115639
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