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Journal Abstract Search

417 related items for PubMed ID: 26966024

  • 41. Fumonisin production in the maize pathogen Fusarium verticillioides: genetic basis of naturally occurring chemical variation.
    Proctor RH, Plattner RD, Desjardins AE, Busman M, Butchko RA.
    J Agric Food Chem; 2006 Mar 22; 54(6):2424-30. PubMed ID: 16536629
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  • 43. N-starvation stress induced FUM gene expression and fumonisin production is mediated via the HOG-type MAPK pathway in Fusarium proliferatum.
    Kohut G, Adám AL, Fazekas B, Hornok L.
    Int J Food Microbiol; 2009 Mar 15; 130(1):65-9. PubMed ID: 19181411
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  • 44. Reducing production of fumonisin mycotoxins in Fusarium verticillioides by RNA interference.
    Johnson ET, Proctor RH, Dunlap CA, Busman M.
    Mycotoxin Res; 2018 Mar 15; 34(1):29-37. PubMed ID: 29164518
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  • 45. Comparative analysis of 87,000 expressed sequence tags from the fumonisin-producing fungus Fusarium verticillioides.
    Brown DW, Cheung F, Proctor RH, Butchko RA, Zheng L, Lee Y, Utterback T, Smith S, Feldblyum T, Glenn AE, Plattner RD, Kendra DF, Town CD, Whitelaw CA.
    Fungal Genet Biol; 2005 Oct 15; 42(10):848-61. PubMed ID: 16099185
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  • 47. Real-Time RT-PCR assay to quantify the expression of fum1 and fum19 genes from the Fumonisin-producing Fusarium verticillioides.
    López-Errasquín E, Vázquez C, Jiménez M, González-Jaén MT.
    J Microbiol Methods; 2007 Feb 15; 68(2):312-7. PubMed ID: 17055092
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  • 48. Protein phosphatase 2A regulatory subunits perform distinct functional roles in the maize pathogen Fusarium verticillioides.
    Shin JH, Kim JE, Malapi-Wight M, Choi YE, Shaw BD, Shim WB.
    Mol Plant Pathol; 2013 Jun 15; 14(5):518-29. PubMed ID: 23452277
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  • 49. Loss of gibberellin production in Fusarium verticillioides (Gibberella fujikuroi MP-A) is due to a deletion in the gibberellic acid gene cluster.
    Bömke C, Rojas MC, Hedden P, Tudzynski B.
    Appl Environ Microbiol; 2008 Dec 15; 74(24):7790-801. PubMed ID: 18952870
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  • 50. Giberella fujikuroi species complex isolated from maize and wheat in Iran: distribution, molecular identification and fumonisin B1 in vitro biosynthesis.
    Mohammadi A, Shams-Ghahfarokhi M, Nazarian-Firouzabadi F, Kachuei R, Gholami-Shabani M, Razzaghi-Abyaneh M.
    J Sci Food Agric; 2016 Mar 15; 96(4):1333-40. PubMed ID: 25903322
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  • 51. Identification of genes associated with fumonisin biosynthesis in Fusarium verticillioides via proteomics and quantitative real-time PCR.
    Choi YE, Shim WB.
    J Microbiol Biotechnol; 2008 Apr 15; 18(4):648-57. PubMed ID: 18467856
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  • 52. Fusarium spp. associated with rice Bakanae: ecology, genetic diversity, pathogenicity and toxigenicity.
    Wulff EG, Sørensen JL, Lübeck M, Nielsen KF, Thrane U, Torp J.
    Environ Microbiol; 2010 Mar 15; 12(3):649-57. PubMed ID: 20002135
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  • 56. Identification of early fumonisin biosynthetic intermediates by inactivation of the FUM6 gene in Fusarium verticillioides.
    Uhlig S, Busman M, Shane DS, Rønning H, Rise F, Proctor R.
    J Agric Food Chem; 2012 Oct 17; 60(41):10293-301. PubMed ID: 22991966
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  • 57. FvSO regulates vegetative hyphal fusion, asexual growth, fumonisin B1 production, and virulence in Fusarium verticillioides.
    Guo L, Wenner N, Kuldau GA.
    Fungal Biol; 2015 Dec 17; 119(12):1158-1169. PubMed ID: 26615739
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  • 58. Evaluation of bakanae disease progression caused by Fusarium fujikuroi in Oryza sativa L.
    Hwang IS, Kang WR, Hwang DJ, Bae SC, Yun SH, Ahn IP.
    J Microbiol; 2013 Dec 17; 51(6):858-65. PubMed ID: 24385365
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  • 60. New insights into fumonisin production and virulence of Fusarium proliferatum underlying different carbon sources.
    Jian Q, Li T, Wang Y, Zhang Y, Zhao Z, Zhang X, Gong L, Jiang Y.
    Food Res Int; 2019 Feb 17; 116():397-407. PubMed ID: 30716962
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