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Journal Abstract Search


340 related items for PubMed ID: 17784953

  • 21. Something old, something new: challenges and developments in Aspergillus niger biotechnology.
    Cairns TC, Barthel L, Meyer V.
    Essays Biochem; 2021 Jul 26; 65(2):213-224. PubMed ID: 33955461
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  • 23. Beyond the Biosynthetic Gene Cluster Paradigm: Genome-Wide Coexpression Networks Connect Clustered and Unclustered Transcription Factors to Secondary Metabolic Pathways.
    Kwon MJ, Steiniger C, Cairns TC, Wisecaver JH, Lind AL, Pohl C, Regner C, Rokas A, Meyer V.
    Microbiol Spectr; 2021 Oct 31; 9(2):e0089821. PubMed ID: 34523946
    [Abstract] [Full Text] [Related]

  • 24. Expression-based clustering of CAZyme-encoding genes of Aspergillus niger.
    Gruben BS, Mäkelä MR, Kowalczyk JE, Zhou M, Benoit-Gelber I, De Vries RP.
    BMC Genomics; 2017 Nov 23; 18(1):900. PubMed ID: 29169319
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  • 25. Comprehensive reconstruction and in silico analysis of Aspergillus niger genome-scale metabolic network model that accounts for 1210 ORFs.
    Lu H, Cao W, Ouyang L, Xia J, Huang M, Chu J, Zhuang Y, Zhang S, Noorman H.
    Biotechnol Bioeng; 2017 Mar 23; 114(3):685-695. PubMed ID: 27696371
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  • 26. Identification of genes associated with morphology in Aspergillus niger by using suppression subtractive hybridization.
    Dai Z, Mao X, Magnuson JK, Lasure LL.
    Appl Environ Microbiol; 2004 Apr 23; 70(4):2474-85. PubMed ID: 15066846
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  • 27. Identification of modules in Aspergillus niger by gene co-expression network analysis.
    van den Berg RA, Braaksma M, van der Veen D, van der Werf MJ, Punt PJ, van der Oost J, de Graaff LH.
    Fungal Genet Biol; 2010 Jun 23; 47(6):539-50. PubMed ID: 20350613
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  • 28. Aspergillus niger RhaR, a regulator involved in L-rhamnose release and catabolism.
    Gruben BS, Zhou M, Wiebenga A, Ballering J, Overkamp KM, Punt PJ, de Vries RP.
    Appl Microbiol Biotechnol; 2014 Jun 23; 98(12):5531-40. PubMed ID: 24682478
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  • 29. Profiling of secondary metabolite gene clusters regulated by LaeA in Aspergillus niger FGSC A1279 based on genome sequencing and transcriptome analysis.
    Wang B, Lv Y, Li X, Lin Y, Deng H, Pan L.
    Res Microbiol; 2018 Jun 23; 169(2):67-77. PubMed ID: 29054463
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  • 31. Rewiring a secondary metabolite pathway towards itaconic acid production in Aspergillus niger.
    Hossain AH, Li A, Brickwedde A, Wilms L, Caspers M, Overkamp K, Punt PJ.
    Microb Cell Fact; 2016 Jul 28; 15(1):130. PubMed ID: 27469970
    [Abstract] [Full Text] [Related]

  • 32. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus.
    de Vries RP, Riley R, Wiebenga A, Aguilar-Osorio G, Amillis S, Uchima CA, Anderluh G, Asadollahi M, Askin M, Barry K, Battaglia E, Bayram Ö, Benocci T, Braus-Stromeyer SA, Caldana C, Cánovas D, Cerqueira GC, Chen F, Chen W, Choi C, Clum A, Dos Santos RA, Damásio AR, Diallinas G, Emri T, Fekete E, Flipphi M, Freyberg S, Gallo A, Gournas C, Habgood R, Hainaut M, Harispe ML, Henrissat B, Hildén KS, Hope R, Hossain A, Karabika E, Karaffa L, Karányi Z, Kraševec N, Kuo A, Kusch H, LaButti K, Lagendijk EL, Lapidus A, Levasseur A, Lindquist E, Lipzen A, Logrieco AF, MacCabe A, Mäkelä MR, Malavazi I, Melin P, Meyer V, Mielnichuk N, Miskei M, Molnár ÁP, Mulé G, Ngan CY, Orejas M, Orosz E, Ouedraogo JP, Overkamp KM, Park HS, Perrone G, Piumi F, Punt PJ, Ram AF, Ramón A, Rauscher S, Record E, Riaño-Pachón DM, Robert V, Röhrig J, Ruller R, Salamov A, Salih NS, Samson RA, Sándor E, Sanguinetti M, Schütze T, Sepčić K, Shelest E, Sherlock G, Sophianopoulou V, Squina FM, Sun H, Susca A, Todd RB, Tsang A, Unkles SE, van de Wiele N, van Rossen-Uffink D, Oliveira JV, Vesth TC, Visser J, Yu JH, Zhou M, Andersen MR, Archer DB, Baker SE, Benoit I, Brakhage AA, Braus GH, Fischer R, Frisvad JC, Goldman GH, Houbraken J, Oakley B, Pócsi I, Scazzocchio C, Seiboth B, vanKuyk PA, Wortman J, Dyer PS, Grigoriev IV.
    Genome Biol; 2017 Feb 14; 18(1):28. PubMed ID: 28196534
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  • 34. Functional analysis of the mitochondrial alternative oxidase gene (aox1) from Aspergillus niger CGMCC 10142 and its effects on citric acid production.
    Hou L, Liu L, Zhang H, Zhang L, Zhang L, Zhang J, Gao Q, Wang D.
    Appl Microbiol Biotechnol; 2018 Sep 14; 102(18):7981-7995. PubMed ID: 30006782
    [Abstract] [Full Text] [Related]

  • 35. Citric acid production by Aspergillus niger on wet corn distillers grains.
    Xie G, West TP.
    Lett Appl Microbiol; 2006 Sep 14; 43(3):269-73. PubMed ID: 16910930
    [Abstract] [Full Text] [Related]

  • 36. The Aspergillus niger multicopper oxidase family: analysis and overexpression of laccase-like encoding genes.
    Ramos JA, Barends S, Verhaert RM, de Graaff LH.
    Microb Cell Fact; 2011 Oct 08; 10():78. PubMed ID: 21981827
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  • 37. Changes in transcript levels of starch hydrolysis genes and raising citric acid production via carbon ion irradiation mutagenesis of Aspergillus niger.
    Hu W, Li W, Chen H, Liu J, Wang S, Chen J.
    PLoS One; 2017 Oct 08; 12(6):e0180120. PubMed ID: 28650980
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  • 39. Morphological regulation of Aspergillus niger to improve citric acid production by chsC gene silencing.
    Sun X, Wu H, Zhao G, Li Z, Wu X, Liu H, Zheng Z.
    Bioprocess Biosyst Eng; 2018 Jul 08; 41(7):1029-1038. PubMed ID: 29610994
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  • 40. A study of P release from Fe-P and Ca-P via the organic acids secreted by Aspergillus niger.
    Tian D, Wang L, Hu J, Zhang L, Zhou N, Xia J, Xu M, Yusef KK, Wang S, Li Z, Gao H.
    J Microbiol; 2021 Sep 08; 59(9):819-826. PubMed ID: 34382148
    [Abstract] [Full Text] [Related]


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