References of "Bafort, Françoise"
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See detailDevelopment of a colorimetric method for the dosage of OI- anions and I2 in aqueous media
Bafort, Françoise ULg; Barthelemy, Jean-Paul ULg; Parisi, Olivier ULg et al

in Communications in Agricultural and Applied Biological Sciences (2014), 79(1), 155-160

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See detailLa "chimie verte" passe par Gembloux
Bafort, Françoise ULg; Jijakli, Haissam ULg

Article for general public (2013)

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See detailInnovative utilization of the Lactoperoxidase System against apple’s postharvest diseases
Bafort, Françoise ULg; Jijakli, Haissam ULg; Perraudin, Jean-Paul

Conference (2012, September 21)

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See detailThe Lactoperoxydase System, a natural and biological control of potato late blight
Bafort, Françoise ULg; Jijakli, Haissam ULg; Perraudin, Jean-Paul

Conference (2012, June 27)

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See detailThe Lactoperoxidase System, a natural and biological control of apple’s postharvest diseases
Bafort, Françoise ULg; Jijakli, Haissam ULg; Perraudin, Jean-Paul

Conference (2012, May 22)

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See detailThe Lactoperoxydase System, a soft chemical method to control of potato late blight
Bafort, Françoise ULg; Jijakli, Haissam ULg; Perraudin, Jean-Paul

Poster (2012, May 07)

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See detailScreening Elisa method to assess in vitro efficacy of new agents based on Lactoperoxydase system against phytopathogens
Bafort, Françoise ULg; Lepoivre, Philippe ULg; Jijakli, Haissam ULg et al

Poster (2011, May 24)

The lactoperoxydasesystem (LPS) is a natural biological protection system in human saliva, milk and tears. Lactoperoxydase catalyzes the oxidation of iodide (I-) and thiocyanate (SCN-) in presence of ... [more ▼]

The lactoperoxydasesystem (LPS) is a natural biological protection system in human saliva, milk and tears. Lactoperoxydase catalyzes the oxidation of iodide (I-) and thiocyanate (SCN-) in presence of hydrogen peroxide in hypoiodite (OI-) and hypothiocyanite (OSCN-) ions. Both ions have inhibitory action against pathogenic bacteria, fungi and viruses. Until now, the ions OI- and OSCN- applied separately from the LPS were not tested against plant pathogens. Seventeen KI/KSCN/H2O2 ratios with 3 dilutions for each one were tested against Botrytiscinerea. Results showed that the ions OI- and OSCN- gives a better % of inhibition with: -high concentration of KI+KSCN, -a ratio of KI/KSCN of 4.5 and -a ratioof (KI+KSCN)/H2O2 near 1. Increased dilution combined with lower KI+KSCN concentration reduced the efficacy of the ions. From the screening against B.cinerea, 4 ratios of KI+KSCN were selected and tested against 6 other phytopathogens. Results showed that the OI- and OSCN- ions give 87 and 100% inhibition against Penicillium expansum and Verticillium dahlia respectively. The inhibitory activity of the ions solution was ranged between 70 and 79% regarding Fusarium avenaceum, Phytophthora infestans and Colletotrichum lindemuthanium. The ions OI- and OSCN- showed an insufficient inhibitory activity against Septoria tritici. The screening method highlighted that high KI/KSCN ratios and low dilution were more efficient against phytopathogens. The efficient ratios will be further evaluated in vivo. [less ▲]

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See detailNovel applications of lactoperoxydase system against pathogens of cultivated plants
Jijakli, Haissam ULg; Bafort, Françoise ULg; perraudin, J.P

Conference (2010, June)

Detailed reference viewed: 22 (9 ULg)