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References
Akande KE, Abubakar MM, Adegbnola TA, Bogoro SE (2006). Nutritional and health implications of mycotoxins in animal feeds: a review. Park. J. Nutr. 5(5):398-403. | ||||
Binder EM, Tan LM, Chin LJ, Handl J, Richard J (2007). Worldwide occurrence of mycotoxins in commodities feeds and feed ingredients. Anim. Feed Sci. Technol. 137:265-282. Crossref |
||||
Brul S, Coote P (1999). Preservative agents in foods: Mode of action and microbial resistance mechanisms. Int. J. Food Microbiol. 50:1-17. Crossref |
||||
Bullerman LB (1977). Incidence and control of mycotoxins producing molds in domestic and imported cheeses. Ann. Nutr. Food 31:435-446. | ||||
Choudhary AK, Kumari P (2010). Management of mycotoxin contamination in pre-harvest and post-harvest crops: present status and future prospects. J. Phytol. 2(7):37-52. | ||||
Clinical and Laboratory standards Institute (1999). Methods for determining bactericidal activity of antimicrobial agent: approved guideline, Document M26-A, Wayne, PA: CLSI. | ||||
Fewell AM, Roddick JG (1997). Potato glycoalkaloid impairment of fungal development. Mycol. Rev. 101:597-603. Crossref |
||||
Figen M (2006). Saponins versus plant fungal pathogens. J. Cell Mol. Biol. 5:13-17. | ||||
Friedman M, Henika PR, Mandrell RE (2002). Bactericidal activities of plant essential oils and some of their isolated constituents against Campylobacter jejuni, Escherichia coli, Listeria monocytogenes, and Salmonella enterica. J. Food Protect. 65, 1545-1560. PMid:12380738 |
||||
Gould GW (1996). Industry perspectives on the use of natural antimicrobials and inhibitors for food applications. J. Food Protect. pp. 82-86. | ||||
Hoagland RE (2009). Toxicity of tomatine and tomatidine on weeds, crops and phytopathogenetic fungi. Allelopathy J. 23(2):425-436. | ||||
Hui YH, Smith R, David GS (2001). Foodborne Disease Handbook, vol. 3, Plant Toixcants, CRC; 2nd édition, (ISBN 082470343X), p. 99. | ||||
Iowa Department of Public Health (2008). Acute Pesticide Poisoning Associated with Pyraclostrobin Fungicide - Iowa. | ||||
Keukens EA, de Vrije T, Van den Boom C, de Waard P, Plasman HH, Thiel F, Chupin V, Jongen WM, de Kruijff B (1995). Molecular basis of glycoalkaloid induced membrane disruption. Biochim. Biophys. Acta. 1240:216-228. Crossref |
||||
Kouadio AI, Oulahal N, Nguyen Thi P, Adt I, Degraeve P (2011). Study of the antimicrobial activities of Solanumindicumssp. Distichum (Schumach. and Thonning 1827) fruits ("gnangnan" berries) from a tropical humid zone (Côte d'Ivoire).Int. J. Biol. Chem. Sci. 5(3):1190-1200. | ||||
Kuiper-Goodman T (2004). Risk assessment and risk management of mycotoxins in food. In: Mycotoxins in food Detection and control, Magan N. and Olsen M. (eds). Cambridge, England: Woodhead Publishing Limited, pp. 3-31. Crossref |
||||
Raju MVLN, Rao RSV (2004). Aflatoxins in poultry diet: natural ways for counteraction. Proc. Annual Conference, Compound livestock feed manufacturers Association, Mumbai, September 13 & 14. | ||||
Rick CM (1980). Tomato. In Hybridization of Crop Plants (ed. W. R. Fehr and H. H. Hadley. American Society of Agronomy, Madison, USA, pp. 669-680. | ||||
Rouabhi R (2010). Introduction and Toxicology of Fungicides, Fungicides, Odile Carisse (Ed.), ISBN: 978-953-307-266-1. Intech. | ||||
Sánchez-Rodríguez A, Portal O, Rojas LE, Oca-a B, Mendoza M, Acosta M, Jiménez E, Höfte M (2008). An efficient method for the extraction of high-quality fungal total RNA to study the Mycosphaerellafijiensis-Musa spp. Interaction. Mol. Biotechnol. 40(3):299-305. Crossref |
||||
Sandrock RW, Vanetten HD (1998). Fungal sensitivity to and enzymatic degradation of the phytoanticipinα-tomatine.Phytopathol. 88:137-143. Crossref |
||||
Steel CC, Drysdale RB (1988). Electrolyte leakage from plant and fungal tissues and disruption of liposome membranes by α-tomatine. Phytochem. 27:1025-1030. Crossref |
||||
Steyn PS (1995). Mycotoxins, general view, chemistry and structure. Toxicol. Lett. 82:843-851. Crossref |
||||
Wang LD, Guo DA, Yuan L, He QH, Hu YQ, Tu PF, Zheng JH (2000). Antifungal effect of three natural products on the genetic substance of Saccharomyces cerevisiae GL7 and Prototheca wickerhamii. Yao Xue Xue Bao 35(11):860-863. Pubmed |
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