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Journal Abstract Search

549 related items for PubMed ID: 19131120

  • 1. Gramine-induced growth inhibition, oxidative damage and antioxidant responses in freshwater cyanobacterium Microcystis aeruginosa.
    Hong Y, Hu HY, Xie X, Sakoda A, Sagehashi M, Li FM.
    Aquat Toxicol; 2009 Feb 19; 91(3):262-9. PubMed ID: 19131120
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  • 3. Responses of enzymatic antioxidants and non-enzymatic antioxidants in the cyanobacterium Microcystis aeruginosa to the allelochemical ethyl 2-methyl acetoacetate (EMA) isolated from reed (Phragmites communis).
    Hong Y, Hu HY, Xie X, Li FM.
    J Plant Physiol; 2008 Aug 25; 165(12):1264-73. PubMed ID: 18164782
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  • 5. Growth inhibition of bloom-forming cyanobacterium Microcystis aeruginosa by rice straw extract.
    Park MH, Han MS, Ahn CY, Kim HS, Yoon BD, Oh HM.
    Lett Appl Microbiol; 2006 Sep 25; 43(3):307-12. PubMed ID: 16910937
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  • 8. Growth and photosynthetic responses of the bloom-forming cyanobacterium Microcystis aeruginosa to elevated levels of cadmium.
    Zhou W, Juneau P, Qiu B.
    Chemosphere; 2006 Dec 25; 65(10):1738-46. PubMed ID: 16777178
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  • 11. Natural xenobiotics to prevent cyanobacterial and algal growth in freshwater: contrasting efficacy of tannic acid, gallic acid, and gramine.
    Laue P, Bährs H, Chakrabarti S, Steinberg CE.
    Chemosphere; 2014 Jun 25; 104():212-20. PubMed ID: 24332729
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  • 12. Metabolic adaptations to ammonia-induced oxidative stress in leaves of the submerged macrophyte Vallisneria natans (Lour.) Hara.
    Wang C, Zhang SH, Wang PF, Hou J, Li W, Zhang WJ.
    Aquat Toxicol; 2008 Apr 28; 87(2):88-98. PubMed ID: 18304660
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  • 13. Allelopathic mechanism of pyrogallol to Microcystis aeruginosa PCC7806 (Cyanobacteria): from views of gene expression and antioxidant system.
    Shao J, Wu Z, Yu G, Peng X, Li R.
    Chemosphere; 2009 May 28; 75(7):924-8. PubMed ID: 19201447
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  • 14. Effects of copper sulfate, hydrogen peroxide and N-phenyl-2-naphthylamine on oxidative stress and the expression of genes involved photosynthesis and microcystin disposition in Microcystis aeruginosa.
    Qian H, Yu S, Sun Z, Xie X, Liu W, Fu Z.
    Aquat Toxicol; 2010 Sep 01; 99(3):405-12. PubMed ID: 20566224
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  • 15. Effect of erythromycin exposure on the growth, antioxidant system and photosynthesis of Microcystis flos-aquae.
    Wan J, Guo P, Peng X, Wen K.
    J Hazard Mater; 2015 Sep 01; 283():778-86. PubMed ID: 25464321
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  • 16. Changes in metabolites, antioxidant system, and gene expression in Microcystis aeruginosa under sodium chloride stress.
    Chen L, Mao F, Kirumba GC, Jiang C, Manefield M, He Y.
    Ecotoxicol Environ Saf; 2015 Dec 01; 122():126-35. PubMed ID: 26232039
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  • 17. Antioxidant enzyme activities of Microcystis aeruginosa in response to nonylphenols and degradation of nonylphenols by M. aeruginosa.
    Wang J, Xie P.
    Environ Geochem Health; 2007 Oct 01; 29(5):375-83. PubMed ID: 17342429
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  • 18. Oxidative damage and antioxidant responses in Microcystis aeruginosa exposed to the allelochemical berberine isolated from golden thread.
    Zhang S, Zhang B, Dai W, Zhang X.
    J Plant Physiol; 2011 May 01; 168(7):639-43. PubMed ID: 21131096
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  • 19. Growth inhibition and oxidative damage of Microcystis aeruginosa induced by crude extract of Sagittaria trifolia tubers.
    Li J, Liu Y, Zhang P, Zeng G, Cai X, Liu S, Yin Y, Hu X, Hu X, Tan X.
    J Environ Sci (China); 2016 May 01; 43():40-47. PubMed ID: 27155407
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  • 20. Identification of allelochemicals from pomegranate peel and their effects on Microcystis aeruginosa growth.
    Chen L, Wang Y, Shi L, Zhao J, Wang W.
    Environ Sci Pollut Res Int; 2019 Aug 01; 26(22):22389-22399. PubMed ID: 31154644
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