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Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi

Year 2018, , 249 - 254, 31.03.2018
https://doi.org/10.21597/jist.407882

Abstract

Bu çalışmada, tarım sektöründe oldukça yaygın olarak kullanılan Dentis pestisitinin mutajenik etkisi, kısa
zamanlı bakteriyel mutajenite test sistemlerinden biri olan Salmonella/mikrozom test sistemi ile araştırılmıştır.
Çalışmada Salmonella typhimurium’un iki suşu olan TA98 ve TA100 suşları kullanılmıştır. Bunun için her iki suş
mikrozomal enzimler içeren metabolik aktivasyon (S9) varlığında ve yokluğunda, Dentis’in 250, 25, 2.5, 0.25,
0.025 μg/plak konsantrasyonlarında iki bağımsız paralel deneyde test edilmiştir. Her test suşu için pozitif kontroller
de kullanılmıştır. Elde edilen veriler Dunnett-t testi ile istatistiksel olarak değerlendirilmiştir. Sonuç olarak; Dentis
pestisiti TA98 ve TA100 suşlarının her ikisinde de S9 varlığında ve yokluğunda 250 μg/plak konsantrasyonunda
mutajenik aktivite göstermiştir.

References

  • Akyıl D, Erdoğmuş SF, Eren Y, Özkara A, Korcan E, 2013. Potential antimicrobial and antimutagenic activities of Astragalus flavescens. Fresenius Environmental Bulletin, 22(7): 1868-1873.
  • Alzuet PR, Gaspes E, Ronco AE, 1996. Mutagenicity of Enviromental Samples from an Industrialized Area of the Rio de la Plata Estuary using the Salmonella/Microsomal Assay. Environmental Toxicology and Water Quality, 11: 231-236.
  • Coral MN, Uçman S, Yıldız H, Öztaş H, Dalkılıç S, 2009. Potential neoplastic effects of parathion-methyl on rat liver. Journal of Environmental Sciences, 21(5): 696-699.
  • Çolak İ, 2009. Sentetik piretroidlerde enantiomerik analiz yöntemlerinin geliştirilmesi. Marmara Üniversitesi Fen Bilimleri Enstitüsü, Doktora Tezi, İstanbul.
  • Dean BJ, Brooks TM, Hodson-Walker G, Hutson DH, 1985. Genetic toxicology testing of 41 industrial chemicals. Mutation Research, 153: 57-77.
  • Eren Y, Erdoğmuş SF, Akyıl D, Özkara A, 2016. Mutagenic and cytotoxic activities of benfuracarb insecticide. Cytotechnology, 68(4): 637-43.
  • Fuse I, Higuchi W, Uesugi Y, Aizawz Y, 2001. Pathogenic analysis of three cases with a bleeding disorder characterized by defective platelet aggregation induced by Ca⁺² ionophores. British Journal of Haematology, 112(3): 603-608.
  • Healy CE, Kier LD, Broeckaert F, Martens MA, 2003. A review of the genotoxicity of triallate. International Journal of Toxicology, 22(3): 233-251.
  • Herrera A, Laborda E, 1988. Mutagenic activity in synthetic pyrethroids in Salmonella typhimurium. Oxford Journals Life Sciences & Medicine Mutagenesis, 3: 509-514.
  • Kayaalp O, 1995. Tıbbi Farmakoloji, Hacettepe Taş Yayınları, Ankara.
  • Kim SJ, Rim KT, Kim HY, Yang JS, 2010. Mutagenicity of octane and tetrasodium pyrophosphate in bacterial reverse mutation (Ames) test. The Journal of Toxicological Sciences, 35(4): 555-562.
  • Maron DM, Ames BN, 1983. Revised methods for the mutagenicity test. Mutation Research, 113: 173-215.
  • Mortelmans K, Zeiger E, 2000. The Ames Salmonella/microsome mutagenicity assay. Mutation Research, 445: 29–60.
  • Namba T, Nolte C, Jackrel J, Grob D, 1972. Poisoning due to organophosphate insecticides, acute and chronic manifestations. The American Journal of Medicine, 50: 475-492.
  • Oğuz S, 2011. Mutajenik-Karsinojenik Etkinin Ames Testi İle Araştırılması. Marmara Üniversitesi Sağlık Bilimleri Enstitüsü, Yüksek Lisans Tezi, 81s, İstanbul.
  • Öztaş E, 2005. Bazı 9-sübstitüe fenantren türevlerinin mutajenik aktivitelerinin Ames/Salmonella/Mikrozom testi ile araştırılması. Anadolu Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, Eskişehir.
  • Piner P, 2009. Lamda-cyhalohrinin Oreochromis niloticus’da karaciğerde piperonil bütoksit modülatörlüğünde oksidatif stres potansiyelinin belirlenmesi, stres proteinleri ve apoptozis üzerine etkileri. Çukurova Üniversitesi Fen Bilimleri Enstitüsü, Doktara Tezi, Adana.
  • Pluijmen M, Drevon C, Montesano R, Malaveille C, Hautefeuille A, Bartsch H, 1984. Lack of mutagenicity of synthetic pyrethroids in Salmonella typhimurium strains and in V79 Chinese hamster cells. Mutation Research, 1: 7-17.
  • Romero A, Ramos E, Castellano V, Martínez MA, Ares I, Martínez M, Martínez-Larrañaga MR, Anadón A, 2012. Cytotoxicity induced by deltamethrin and its metabolites in SH-SY5Y cells can be differentially prevented by selected antioxidants. Toxicology in Vitro, 26: 823–830.
  • Scharf J, WiesiolIek R, Bachmann K, 1992. Pesticides in atmosphere. Fresenius Journal of Analytical Chemistry, 342: 813-816.
  • Soderlund DM, Clark JM, Sheets LP, Mullin LS, Piccirillo VJ, Sargent D, Stevens J. T, Weiner ML, 2002. Mechanisms of pyrethroid neurotoxicity: implications for cumulative risk assessment. Toxicology, 171: 3-59.
  • Song Y, Kai J, Song X, Zhang W, Li L, 2015. Long-term toxic effects of deltamethrin and fenvalerante in soil. Journal of Hazardous Materials, 289: 158–164.
  • Verma R, Awasthi KK, Rajawat NK, Soni I, John PJ, 2016. Curcumin modulates oxidative stress and genotoxicity induced by a type II fluorinated pyrethroid, beta-cyfluthrin, Food and Chemical Toxicology, 97: 168-176.
  • Villarini M, Moretti M, Pasquini R, Scassellati-Sforzolini G, Fatigoni C, Marcarelli M, Monarca S, Rodrı´guez AV, 1998. In vitro genotoxic effects of the insecticide deltamethrin in human peripheral blood leukocytes: DNA damage (comet assay) in relation to the induction of sister-chromatid exchanges and micronuclei.Toxicology, 130: 129–139.
  • Vural N, 1996. Toksikoloji. Ankara Üniversitesi Basımevi, 344-363, Ankara,
Year 2018, , 249 - 254, 31.03.2018
https://doi.org/10.21597/jist.407882

Abstract

References

  • Akyıl D, Erdoğmuş SF, Eren Y, Özkara A, Korcan E, 2013. Potential antimicrobial and antimutagenic activities of Astragalus flavescens. Fresenius Environmental Bulletin, 22(7): 1868-1873.
  • Alzuet PR, Gaspes E, Ronco AE, 1996. Mutagenicity of Enviromental Samples from an Industrialized Area of the Rio de la Plata Estuary using the Salmonella/Microsomal Assay. Environmental Toxicology and Water Quality, 11: 231-236.
  • Coral MN, Uçman S, Yıldız H, Öztaş H, Dalkılıç S, 2009. Potential neoplastic effects of parathion-methyl on rat liver. Journal of Environmental Sciences, 21(5): 696-699.
  • Çolak İ, 2009. Sentetik piretroidlerde enantiomerik analiz yöntemlerinin geliştirilmesi. Marmara Üniversitesi Fen Bilimleri Enstitüsü, Doktora Tezi, İstanbul.
  • Dean BJ, Brooks TM, Hodson-Walker G, Hutson DH, 1985. Genetic toxicology testing of 41 industrial chemicals. Mutation Research, 153: 57-77.
  • Eren Y, Erdoğmuş SF, Akyıl D, Özkara A, 2016. Mutagenic and cytotoxic activities of benfuracarb insecticide. Cytotechnology, 68(4): 637-43.
  • Fuse I, Higuchi W, Uesugi Y, Aizawz Y, 2001. Pathogenic analysis of three cases with a bleeding disorder characterized by defective platelet aggregation induced by Ca⁺² ionophores. British Journal of Haematology, 112(3): 603-608.
  • Healy CE, Kier LD, Broeckaert F, Martens MA, 2003. A review of the genotoxicity of triallate. International Journal of Toxicology, 22(3): 233-251.
  • Herrera A, Laborda E, 1988. Mutagenic activity in synthetic pyrethroids in Salmonella typhimurium. Oxford Journals Life Sciences & Medicine Mutagenesis, 3: 509-514.
  • Kayaalp O, 1995. Tıbbi Farmakoloji, Hacettepe Taş Yayınları, Ankara.
  • Kim SJ, Rim KT, Kim HY, Yang JS, 2010. Mutagenicity of octane and tetrasodium pyrophosphate in bacterial reverse mutation (Ames) test. The Journal of Toxicological Sciences, 35(4): 555-562.
  • Maron DM, Ames BN, 1983. Revised methods for the mutagenicity test. Mutation Research, 113: 173-215.
  • Mortelmans K, Zeiger E, 2000. The Ames Salmonella/microsome mutagenicity assay. Mutation Research, 445: 29–60.
  • Namba T, Nolte C, Jackrel J, Grob D, 1972. Poisoning due to organophosphate insecticides, acute and chronic manifestations. The American Journal of Medicine, 50: 475-492.
  • Oğuz S, 2011. Mutajenik-Karsinojenik Etkinin Ames Testi İle Araştırılması. Marmara Üniversitesi Sağlık Bilimleri Enstitüsü, Yüksek Lisans Tezi, 81s, İstanbul.
  • Öztaş E, 2005. Bazı 9-sübstitüe fenantren türevlerinin mutajenik aktivitelerinin Ames/Salmonella/Mikrozom testi ile araştırılması. Anadolu Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, Eskişehir.
  • Piner P, 2009. Lamda-cyhalohrinin Oreochromis niloticus’da karaciğerde piperonil bütoksit modülatörlüğünde oksidatif stres potansiyelinin belirlenmesi, stres proteinleri ve apoptozis üzerine etkileri. Çukurova Üniversitesi Fen Bilimleri Enstitüsü, Doktara Tezi, Adana.
  • Pluijmen M, Drevon C, Montesano R, Malaveille C, Hautefeuille A, Bartsch H, 1984. Lack of mutagenicity of synthetic pyrethroids in Salmonella typhimurium strains and in V79 Chinese hamster cells. Mutation Research, 1: 7-17.
  • Romero A, Ramos E, Castellano V, Martínez MA, Ares I, Martínez M, Martínez-Larrañaga MR, Anadón A, 2012. Cytotoxicity induced by deltamethrin and its metabolites in SH-SY5Y cells can be differentially prevented by selected antioxidants. Toxicology in Vitro, 26: 823–830.
  • Scharf J, WiesiolIek R, Bachmann K, 1992. Pesticides in atmosphere. Fresenius Journal of Analytical Chemistry, 342: 813-816.
  • Soderlund DM, Clark JM, Sheets LP, Mullin LS, Piccirillo VJ, Sargent D, Stevens J. T, Weiner ML, 2002. Mechanisms of pyrethroid neurotoxicity: implications for cumulative risk assessment. Toxicology, 171: 3-59.
  • Song Y, Kai J, Song X, Zhang W, Li L, 2015. Long-term toxic effects of deltamethrin and fenvalerante in soil. Journal of Hazardous Materials, 289: 158–164.
  • Verma R, Awasthi KK, Rajawat NK, Soni I, John PJ, 2016. Curcumin modulates oxidative stress and genotoxicity induced by a type II fluorinated pyrethroid, beta-cyfluthrin, Food and Chemical Toxicology, 97: 168-176.
  • Villarini M, Moretti M, Pasquini R, Scassellati-Sforzolini G, Fatigoni C, Marcarelli M, Monarca S, Rodrı´guez AV, 1998. In vitro genotoxic effects of the insecticide deltamethrin in human peripheral blood leukocytes: DNA damage (comet assay) in relation to the induction of sister-chromatid exchanges and micronuclei.Toxicology, 130: 129–139.
  • Vural N, 1996. Toksikoloji. Ankara Üniversitesi Basımevi, 344-363, Ankara,
There are 25 citations in total.

Details

Primary Language Turkish
Subjects Structural Biology
Journal Section Moleküler Biyoloji ve Genetik / Moleculer Biology and Genetic
Authors

Dilek Akyıl 0000-0002-7048-3808

Publication Date March 31, 2018
Submission Date March 24, 2017
Acceptance Date December 1, 2017
Published in Issue Year 2018

Cite

APA Akyıl, D. (2018). Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi. Journal of the Institute of Science and Technology, 8(1), 249-254. https://doi.org/10.21597/jist.407882
AMA Akyıl D. Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi. J. Inst. Sci. and Tech. March 2018;8(1):249-254. doi:10.21597/jist.407882
Chicago Akyıl, Dilek. “Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi”. Journal of the Institute of Science and Technology 8, no. 1 (March 2018): 249-54. https://doi.org/10.21597/jist.407882.
EndNote Akyıl D (March 1, 2018) Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi. Journal of the Institute of Science and Technology 8 1 249–254.
IEEE D. Akyıl, “Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi”, J. Inst. Sci. and Tech., vol. 8, no. 1, pp. 249–254, 2018, doi: 10.21597/jist.407882.
ISNAD Akyıl, Dilek. “Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi”. Journal of the Institute of Science and Technology 8/1 (March 2018), 249-254. https://doi.org/10.21597/jist.407882.
JAMA Akyıl D. Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi. J. Inst. Sci. and Tech. 2018;8:249–254.
MLA Akyıl, Dilek. “Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi”. Journal of the Institute of Science and Technology, vol. 8, no. 1, 2018, pp. 249-54, doi:10.21597/jist.407882.
Vancouver Akyıl D. Ames Testi Kullanılarak Dentis Pestisitinin Mutajenitesinin Belirlenmesi. J. Inst. Sci. and Tech. 2018;8(1):249-54.