Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2020, Cilt: 50 Sayı: 3, 195 - 201, 30.12.2020

Öz

Kaynakça

  • • Chen, E., Xu, Y., Ma, B., Cui, H., Sun, C., & Zhang, M. (2019). Carboxyl- Functionalized, Europium Nanoparticle-Based Fluorescent Immunochromatographic Assay for Sensitive Detection of Citrinin in Monascus Fermented Food. Toxins, 11(10), 605.
  • • Chia-Hao, C., Feng-Yili, Y., Li-Ting, W., Yi-Shen, L., & Biing-Hui, L. (2009). Activation of ERK and JNK signaling pathways by mycotoxin citrinin in humans cells. Toxicology and Applied Pharmacology, 237, 281–287.
  • • Childress, L., Gay, A., Zargar, A., & Ito, M. K. (2013). Review of red yeast rice content and current Food and Drug Administration oversight. Journal of Clinical Lipidology, 7(2), 117–122.
  • • Dick, R., Baumann, U., & Zimmerli, B. (1988). Occurrence of citrinin in cereal grains. Mitteilungen aus dem Gebiete der Lebensmitteluntersuchung und Hygiene, 79, 159–164.
  • • Duarte, S. C., Pena, A., & Lino, C. M. (2010). A review on ochratoxin A occurrence and effects of processing of cereal and cereal derived food products. Food Microbiology, 27(2), 187–198.
  • • EFSA, Panel on Contaminants in the Food Chain (CONTAM). (2012). Scientific Opinion on the risks for public and animal health related to the presence of citrinin in food and feed. EFSA Journal, 10(3), 2605.
  • • El Adlouni, C., Tozlovanu, M., Naman, F., Faid, M., & Pfohl‐Leszkowicz, A. (2006). Preliminary data on the presence of mycotoxins (ochratoxin A, citrinin and aflatoxin B1) in black table olives “Greek style” of Moroccan origin. Molecular Nutrition & Food Research, 50(6), 507–512.
  • • El-Kady, I. A., El-Maraghy, S. S. M., & Mostafa, M. E. (1995). Natural occurrence of mycotoxins in different spices in Egypt. Folia Microbiologica, 40(3), 297–300.
  • • European Union Commission Regulation (EU) No 212/2014 of 6 March 2014 amending Regulation (EC) No 1881/2006 as regards maximum levels of the contaminant citrinin in food supplements based on rice fermented with red yeast Monascus purpureus. https://publications.europa.eu/en/publication-detail/-/ publication/26b34f77-a5d1-11e3-8438-01aa75ed71a1 (Accessed: 26 Jul 2019).
  • • European Union Commission Regulation (EU) No 519/2014 of 16 May 2014 amending Regulation (EC) No 401/2006 as regards methods of sampling of large lots, spices and food supplements, performance criteria for T-2, HT-2 toxin and citrinin and screening methods of analysis. https://www.fsai.ie/uploadedFiles/ Reg519_2014.pdf (Accessed: 31 Jun 2019).
  • • Franco, C. M., Fente, C. A., Vazquez, B., Cepeda, A., Lallaoui, L., Prognon, P., & Mahuzier, G. (1996). Simple and sensitive high-performance liquid chromatography-fluorescence method for the determination of citrinin application to the analysis of fungal cultures and cheese extracts. Journal of Chromatography A, 723(1), 69–75.
  • • Gupta, R. C., Srivastava, A., & Lall, R. (2018). Ochratoxins and citrinin. In Veterinary Toxicology (Third Edition) (pp. 1019–1027).
  • • Hackbart, H., Prietto, L., Primel, E. G., Garda-Buffon, J., & Badiale- Furlong, E. (2012). Simultaneous extraction and detection of ochratoxin A and citrinin in rice. Journal of the Brazilian Chemical Society, 23(1), 103–109.
  • • Jackson, L. K., & Ciegler, A. (1978). Production and analysis of citrinin in corn. Applied and Environmental Microbiology, 36(3), 408–411.
  • • Janardhana, G. R., Raveesha, K. A., & Shetty, H. S. (1999). Mycotoxin contamination of maize grains grown in Karnataka (India). Food and Chemical Toxicology, 37(8), 863–868.
  • • Ji, X., Xu, J., Wang, X., Qi, P., Wei, W., Chen, X., ... & Zhou, Y. (2015). Citrinin determination in red fermented rice products by optimized extraction method coupled to liquid chromatography tandem mass spectrometry (LC‐MS/MS). Journal of Food Science, 80(6), T1438-T1444.
  • • Jiménez-López, J., Llorent-Martínez, E. J., Ortega-Barrales, P., & Ruiz-Medina, A. (2014). Multi-commutated fluorometric optosensor for the determination of citrinin in rice and red yeast rice supplements. Food Additives & Contaminants: Part A, 31(10), 1744–1750.
  • • Kononenko, G. P., & Burkin, A. A. (2008). A survey on the occurrence of citrinin in feeds and their ingredients in Russia. Mycotoxin Research, 24(1), 3–6.
  • • Li, F. Q., Xu, G. R., Li, Y. W., Chen, Y., & Ji, R. (2005). Natural occurrence of citrinin in Monascus products. Wei sheng yan jiu=Journal of Hygiene Research, 34(4), 451–454.
  • • Li, Y., Zhou, Y. C., Yang, M. H., & Ou-Yang, Z. (2012). Natural occurrence of citrinin in widely consumed traditional Chinese food red yeast rice, medicinal plants and their related products. Food Chemistry, 132(2), 1040–1045.
  • • Liao, C. D., Chen, Y. C., Lin, H. Y., Chiueh, L. C., & Shih, D. Y. C. (2014). Incidence of citrinin in red yeast rice and various commercial Monascus products in Taiwan from 2009 to 2012. Food Control, 38, 178–183. •
  • Ma, J., Li, Y., Ye, Q., Li, J., Hua, Y., Ju, D … Chang, M. (2000). Constituents of red yeast rice, a traditional Chinese food and medicine. Journal of Agricultural and Food Chemistry, 48(11), 5220–5225.
  • • Markov, K., Pleadin, J., Bevardi, M., Vahčić, N., Sokolić-Mihalak, D., & Frece, J. (2013). Natural occurrence of aflatoxin B1, ochratoxin A and citrinin in Croatian fermented meat products. Food Control, 34(2), 312–317.
  • • Marley, E., Brown, P., Leeman, D., & Donnelly, C. (2016). Analysis of citrinin in cereals, red yeast rice dietary supplement, and animal feed by immunoaffinity column cleanup and LC with fluorescence detection. Journal of AOAC International, 99(4), 1025–1031.
  • • Molinié, A., Faucet, V., Castegnaro, M., & Pfohl-Leszkowicz, A. (2005). Analysis of some breakfast cereals on the French market for their contents of ochratoxin A, citrinin and fumonisin B1: development of a method for simultaneous extraction of ochratoxin A and citrinin. Food Chemistry, 92(3), 391–400. • Moss, M. O. (2002). Mycotoxin review-1. aspergillus and penicillium. Mycologist, 16(3), 116–119.
  • • Nguyen, M. T., Tozlovanu, M., Tran, T. L., & Pfohl-Leszkowicz, A. (2007). Occurrence of aflatoxin B1, citrinin and ochratoxin A in rice in five provinces of the central region of Vietnam. Food Chemistry, 105(1), 42–47.
  • • Nishijima, M. (1984). Tokyo Metropolitan Research Laboratory of Public Health, Hyakunincho, Shinjuku-ku, Tokyo 160, Japan. In Toxigenic Fungi: Their Toxins and Health Hazard: Proceedings of the Mycotoxin Symposia Held in the Third International Mycological Congress, Tokyo, August 30-September 3, 1983 (Vol. 7, p. 172). Elsevier Science Limited.
  • • Ostry, V., Malir, F., & Ruprich, J. (2013). Producers and important dietary sources of ochratoxin A and citrinin. Toxins, 5(9), 1574–1586.
  • • Pal, M., Gizaw, F., Abera, F., Shukla, P. K., & Hazarika, R. A. (2015). Mycotoxins: A growing concern to human and animal health. Beverage Food World, 42(5), 42–50.
  • • Paterson, R. R. M., & Lima, N. (2010). How will climate change affect mycotoxins in food?. Food Research International, 43(7), 1902–1914.
  • • Petkova-Bocharova, T., Castegnaro, M., Michelon, J., & Maru, V. (1991). Ochratoxin A and other mycotoxins in cereals from an area of Balkan endemic nephropathy and urinary tract tumours in Bulgaria. IARC scientific publications, (115), 83.
  • • Pohland, A. E. (1993). Mycotoxins in review. Food Additives and Contaminants, 10(1), 17–28.
  • • Polisenska, I., Pfohl-Leszkowicz, A., Hadjeba, K., Dohnal, V., Jirsa, O., Denesova, O., ... & Macharackova, P. (2010). Occurrence of ochratoxin A and citrinin in Czech cereals and comparison of two HPLC methods for ochratoxin A detection. Food Additives and Contaminants, 27(11), 1545–1557.
  • • Rawat, S. (2015). Food Spoilage: Microorganisms and their prevention. Asian Journal of Plant Science and Research, 5(4), 47–56.
  • • Saxena, J., & Mehrotra, B. S. (1989). Screening of spices commonly marketed in India for natural occurrence of mycrotoxins. Journal of Food Composition and Analysis, 2(3), 286–292.
  • • Shu, P. Y., & Lin, C. H. (2002). Simple and sensitive determination of citrinin in Monascus by GC-selected ion monitoring mass spectrometry. Analytical Sciences, 18(3), 283–287.
  • • Speijers, G. J. A., & Speijers, M. H. M. (2004). Combined toxic effects of mycotoxins. Toxicology Letters, 153(1), 91–98. • Srianta, I., Ristiarini, S., Nugerahani, I., Sen, S. K., Zhang, B. B., Xu, G. R., & Blanc, P. J. (2014). Recent research and development of Monascus fermentation products. International Food Research Journal, 21(1), 1–12.
  • • Talmaciu, E., Sandu, I., & Banu, T. (2008). Researches regarding the fungal contamination and the presence of citrinin in feed. Fungi & Mycotoxins, 2, 212–217.
  • • Tirado, M. C., Clarke, R., Jaykus, L. A., McQuatters-Gollop, A., & Frank, J. M. (2010). Climate change and food safety: A review. Food Research International, 43(7), 1745–1765.
  • • Tokusoglu, Ö., & Bozoglu, F. (2010). Citrinin risk in black and green table olives: Simultaneous determination with ochratoxin-a by optimized extraction and IAC-HPLC-FD. Italian Journal of Food Science, 22(3), 284.
  • • Tölgyesi, Á., Stroka, J., Tamosiunas, V., & Zwickel, T. (2015). Simultaneous analysis of Alternaria toxins and citrinin in tomato: an optimised method using liquid chromatography-tandem mass spectrometry. Food Additives and Contaminants: Part A, 32(9), 1512–1522.
  • • Vrabcheva, T., Usleber, E., Dietrich, R., & Märtlbauer, E. (2000). Cooccurrence of ochratoxin A and citrinin in cereals from Bulgarian villages with a history of Balkan endemic nephropathy. Journal of Agricultural and Food Chemistry, 48(6), 2483–2488.
  • • Warth, B., Parich, A., Atehnkeng, J., Bandyopadhyay, R., Schuhmacher, R., Sulyok, M., & Krska, R. (2012). Quantitation of mycotoxins in food and feed from Burkina Faso and Mozambique using a modern LC-MS/MS multitoxin method. Journal of agricultural and food chemistry, 60(36), 9352–9363.
  • • Woo, P. C., Lam, C. W., Tam, E. W., Lee, K. C., Yung, K. K., Leung, C. K., ... & Yuen, K. Y. (2014). The biosynthetic pathway for a thousandyear- old natural food colorant and citrinin in Penicillium marneffei. Scientific Reports, 4, 6728.
  • • Xu, B. J., Jia, X. Q., Gu, L. J., & Sung, C. K. (2006). Review on the qualitative and quantitative analysis of the mycotoxin citrinin. Food Control, 17(4), 271–285.
  • • Zaied, C., Zouaoui, N., Bacha, H., & Abid, S. (2012). Natural occurrence of citrinin in Tunisian wheat grains. Food Control, 28(1), 106–109.

Liquid chromatographic determination of citrinin residues in various meat products: A pioneer survey in Turkey

Yıl 2020, Cilt: 50 Sayı: 3, 195 - 201, 30.12.2020

Öz

Background and Aims: Occurence of the mycotoxin citrinin could increase during Monascus purpureus fermentation in red yeast rice resulting in contamination of meat products when the red yeast rice is used as food additive. The aim of this study was to investigate extraction of citrinin from meat products by different extraction methods including LLE, QuEChERS and IAC methods. Methods: Because of high sensitivity IAC method was selected for the extraction of citrinin in 33 meat products (salami, sausage and minced meat), then citrinin was analysed by HPLC- FLD. Results: IAC method was linear in the range of 0.25-100 ng/g (r2≥0.999) in meat products. Citrinin was found at 0.28 to 1.79 ng/g in 6 of the 19 samples (36.84%); and in one sausage sample contained citrinin at LOD level. However, citrinin was not detected in the salami and minced meat samples. Conclusion: Our results indicated that citrinin in meat products could be an important health concern. Since no limits were set in food products, regulations should be developed concerning the presence of citrinin in other products as well as meat products, in Turkey.

Kaynakça

  • • Chen, E., Xu, Y., Ma, B., Cui, H., Sun, C., & Zhang, M. (2019). Carboxyl- Functionalized, Europium Nanoparticle-Based Fluorescent Immunochromatographic Assay for Sensitive Detection of Citrinin in Monascus Fermented Food. Toxins, 11(10), 605.
  • • Chia-Hao, C., Feng-Yili, Y., Li-Ting, W., Yi-Shen, L., & Biing-Hui, L. (2009). Activation of ERK and JNK signaling pathways by mycotoxin citrinin in humans cells. Toxicology and Applied Pharmacology, 237, 281–287.
  • • Childress, L., Gay, A., Zargar, A., & Ito, M. K. (2013). Review of red yeast rice content and current Food and Drug Administration oversight. Journal of Clinical Lipidology, 7(2), 117–122.
  • • Dick, R., Baumann, U., & Zimmerli, B. (1988). Occurrence of citrinin in cereal grains. Mitteilungen aus dem Gebiete der Lebensmitteluntersuchung und Hygiene, 79, 159–164.
  • • Duarte, S. C., Pena, A., & Lino, C. M. (2010). A review on ochratoxin A occurrence and effects of processing of cereal and cereal derived food products. Food Microbiology, 27(2), 187–198.
  • • EFSA, Panel on Contaminants in the Food Chain (CONTAM). (2012). Scientific Opinion on the risks for public and animal health related to the presence of citrinin in food and feed. EFSA Journal, 10(3), 2605.
  • • El Adlouni, C., Tozlovanu, M., Naman, F., Faid, M., & Pfohl‐Leszkowicz, A. (2006). Preliminary data on the presence of mycotoxins (ochratoxin A, citrinin and aflatoxin B1) in black table olives “Greek style” of Moroccan origin. Molecular Nutrition & Food Research, 50(6), 507–512.
  • • El-Kady, I. A., El-Maraghy, S. S. M., & Mostafa, M. E. (1995). Natural occurrence of mycotoxins in different spices in Egypt. Folia Microbiologica, 40(3), 297–300.
  • • European Union Commission Regulation (EU) No 212/2014 of 6 March 2014 amending Regulation (EC) No 1881/2006 as regards maximum levels of the contaminant citrinin in food supplements based on rice fermented with red yeast Monascus purpureus. https://publications.europa.eu/en/publication-detail/-/ publication/26b34f77-a5d1-11e3-8438-01aa75ed71a1 (Accessed: 26 Jul 2019).
  • • European Union Commission Regulation (EU) No 519/2014 of 16 May 2014 amending Regulation (EC) No 401/2006 as regards methods of sampling of large lots, spices and food supplements, performance criteria for T-2, HT-2 toxin and citrinin and screening methods of analysis. https://www.fsai.ie/uploadedFiles/ Reg519_2014.pdf (Accessed: 31 Jun 2019).
  • • Franco, C. M., Fente, C. A., Vazquez, B., Cepeda, A., Lallaoui, L., Prognon, P., & Mahuzier, G. (1996). Simple and sensitive high-performance liquid chromatography-fluorescence method for the determination of citrinin application to the analysis of fungal cultures and cheese extracts. Journal of Chromatography A, 723(1), 69–75.
  • • Gupta, R. C., Srivastava, A., & Lall, R. (2018). Ochratoxins and citrinin. In Veterinary Toxicology (Third Edition) (pp. 1019–1027).
  • • Hackbart, H., Prietto, L., Primel, E. G., Garda-Buffon, J., & Badiale- Furlong, E. (2012). Simultaneous extraction and detection of ochratoxin A and citrinin in rice. Journal of the Brazilian Chemical Society, 23(1), 103–109.
  • • Jackson, L. K., & Ciegler, A. (1978). Production and analysis of citrinin in corn. Applied and Environmental Microbiology, 36(3), 408–411.
  • • Janardhana, G. R., Raveesha, K. A., & Shetty, H. S. (1999). Mycotoxin contamination of maize grains grown in Karnataka (India). Food and Chemical Toxicology, 37(8), 863–868.
  • • Ji, X., Xu, J., Wang, X., Qi, P., Wei, W., Chen, X., ... & Zhou, Y. (2015). Citrinin determination in red fermented rice products by optimized extraction method coupled to liquid chromatography tandem mass spectrometry (LC‐MS/MS). Journal of Food Science, 80(6), T1438-T1444.
  • • Jiménez-López, J., Llorent-Martínez, E. J., Ortega-Barrales, P., & Ruiz-Medina, A. (2014). Multi-commutated fluorometric optosensor for the determination of citrinin in rice and red yeast rice supplements. Food Additives & Contaminants: Part A, 31(10), 1744–1750.
  • • Kononenko, G. P., & Burkin, A. A. (2008). A survey on the occurrence of citrinin in feeds and their ingredients in Russia. Mycotoxin Research, 24(1), 3–6.
  • • Li, F. Q., Xu, G. R., Li, Y. W., Chen, Y., & Ji, R. (2005). Natural occurrence of citrinin in Monascus products. Wei sheng yan jiu=Journal of Hygiene Research, 34(4), 451–454.
  • • Li, Y., Zhou, Y. C., Yang, M. H., & Ou-Yang, Z. (2012). Natural occurrence of citrinin in widely consumed traditional Chinese food red yeast rice, medicinal plants and their related products. Food Chemistry, 132(2), 1040–1045.
  • • Liao, C. D., Chen, Y. C., Lin, H. Y., Chiueh, L. C., & Shih, D. Y. C. (2014). Incidence of citrinin in red yeast rice and various commercial Monascus products in Taiwan from 2009 to 2012. Food Control, 38, 178–183. •
  • Ma, J., Li, Y., Ye, Q., Li, J., Hua, Y., Ju, D … Chang, M. (2000). Constituents of red yeast rice, a traditional Chinese food and medicine. Journal of Agricultural and Food Chemistry, 48(11), 5220–5225.
  • • Markov, K., Pleadin, J., Bevardi, M., Vahčić, N., Sokolić-Mihalak, D., & Frece, J. (2013). Natural occurrence of aflatoxin B1, ochratoxin A and citrinin in Croatian fermented meat products. Food Control, 34(2), 312–317.
  • • Marley, E., Brown, P., Leeman, D., & Donnelly, C. (2016). Analysis of citrinin in cereals, red yeast rice dietary supplement, and animal feed by immunoaffinity column cleanup and LC with fluorescence detection. Journal of AOAC International, 99(4), 1025–1031.
  • • Molinié, A., Faucet, V., Castegnaro, M., & Pfohl-Leszkowicz, A. (2005). Analysis of some breakfast cereals on the French market for their contents of ochratoxin A, citrinin and fumonisin B1: development of a method for simultaneous extraction of ochratoxin A and citrinin. Food Chemistry, 92(3), 391–400. • Moss, M. O. (2002). Mycotoxin review-1. aspergillus and penicillium. Mycologist, 16(3), 116–119.
  • • Nguyen, M. T., Tozlovanu, M., Tran, T. L., & Pfohl-Leszkowicz, A. (2007). Occurrence of aflatoxin B1, citrinin and ochratoxin A in rice in five provinces of the central region of Vietnam. Food Chemistry, 105(1), 42–47.
  • • Nishijima, M. (1984). Tokyo Metropolitan Research Laboratory of Public Health, Hyakunincho, Shinjuku-ku, Tokyo 160, Japan. In Toxigenic Fungi: Their Toxins and Health Hazard: Proceedings of the Mycotoxin Symposia Held in the Third International Mycological Congress, Tokyo, August 30-September 3, 1983 (Vol. 7, p. 172). Elsevier Science Limited.
  • • Ostry, V., Malir, F., & Ruprich, J. (2013). Producers and important dietary sources of ochratoxin A and citrinin. Toxins, 5(9), 1574–1586.
  • • Pal, M., Gizaw, F., Abera, F., Shukla, P. K., & Hazarika, R. A. (2015). Mycotoxins: A growing concern to human and animal health. Beverage Food World, 42(5), 42–50.
  • • Paterson, R. R. M., & Lima, N. (2010). How will climate change affect mycotoxins in food?. Food Research International, 43(7), 1902–1914.
  • • Petkova-Bocharova, T., Castegnaro, M., Michelon, J., & Maru, V. (1991). Ochratoxin A and other mycotoxins in cereals from an area of Balkan endemic nephropathy and urinary tract tumours in Bulgaria. IARC scientific publications, (115), 83.
  • • Pohland, A. E. (1993). Mycotoxins in review. Food Additives and Contaminants, 10(1), 17–28.
  • • Polisenska, I., Pfohl-Leszkowicz, A., Hadjeba, K., Dohnal, V., Jirsa, O., Denesova, O., ... & Macharackova, P. (2010). Occurrence of ochratoxin A and citrinin in Czech cereals and comparison of two HPLC methods for ochratoxin A detection. Food Additives and Contaminants, 27(11), 1545–1557.
  • • Rawat, S. (2015). Food Spoilage: Microorganisms and their prevention. Asian Journal of Plant Science and Research, 5(4), 47–56.
  • • Saxena, J., & Mehrotra, B. S. (1989). Screening of spices commonly marketed in India for natural occurrence of mycrotoxins. Journal of Food Composition and Analysis, 2(3), 286–292.
  • • Shu, P. Y., & Lin, C. H. (2002). Simple and sensitive determination of citrinin in Monascus by GC-selected ion monitoring mass spectrometry. Analytical Sciences, 18(3), 283–287.
  • • Speijers, G. J. A., & Speijers, M. H. M. (2004). Combined toxic effects of mycotoxins. Toxicology Letters, 153(1), 91–98. • Srianta, I., Ristiarini, S., Nugerahani, I., Sen, S. K., Zhang, B. B., Xu, G. R., & Blanc, P. J. (2014). Recent research and development of Monascus fermentation products. International Food Research Journal, 21(1), 1–12.
  • • Talmaciu, E., Sandu, I., & Banu, T. (2008). Researches regarding the fungal contamination and the presence of citrinin in feed. Fungi & Mycotoxins, 2, 212–217.
  • • Tirado, M. C., Clarke, R., Jaykus, L. A., McQuatters-Gollop, A., & Frank, J. M. (2010). Climate change and food safety: A review. Food Research International, 43(7), 1745–1765.
  • • Tokusoglu, Ö., & Bozoglu, F. (2010). Citrinin risk in black and green table olives: Simultaneous determination with ochratoxin-a by optimized extraction and IAC-HPLC-FD. Italian Journal of Food Science, 22(3), 284.
  • • Tölgyesi, Á., Stroka, J., Tamosiunas, V., & Zwickel, T. (2015). Simultaneous analysis of Alternaria toxins and citrinin in tomato: an optimised method using liquid chromatography-tandem mass spectrometry. Food Additives and Contaminants: Part A, 32(9), 1512–1522.
  • • Vrabcheva, T., Usleber, E., Dietrich, R., & Märtlbauer, E. (2000). Cooccurrence of ochratoxin A and citrinin in cereals from Bulgarian villages with a history of Balkan endemic nephropathy. Journal of Agricultural and Food Chemistry, 48(6), 2483–2488.
  • • Warth, B., Parich, A., Atehnkeng, J., Bandyopadhyay, R., Schuhmacher, R., Sulyok, M., & Krska, R. (2012). Quantitation of mycotoxins in food and feed from Burkina Faso and Mozambique using a modern LC-MS/MS multitoxin method. Journal of agricultural and food chemistry, 60(36), 9352–9363.
  • • Woo, P. C., Lam, C. W., Tam, E. W., Lee, K. C., Yung, K. K., Leung, C. K., ... & Yuen, K. Y. (2014). The biosynthetic pathway for a thousandyear- old natural food colorant and citrinin in Penicillium marneffei. Scientific Reports, 4, 6728.
  • • Xu, B. J., Jia, X. Q., Gu, L. J., & Sung, C. K. (2006). Review on the qualitative and quantitative analysis of the mycotoxin citrinin. Food Control, 17(4), 271–285.
  • • Zaied, C., Zouaoui, N., Bacha, H., & Abid, S. (2012). Natural occurrence of citrinin in Tunisian wheat grains. Food Control, 28(1), 106–109.
Toplam 46 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Eczacılık ve İlaç Bilimleri, Sağlık Kurumları Yönetimi
Bölüm Original Article
Yazarlar

Fatih Mehmet Sarı Bu kişi benim

Ezgi Öztaş Bu kişi benim 0000-0002-0718-2359

Sibel Özden Bu kişi benim 0000-0002-0718-2359

Gül Özhan Bu kişi benim 0000-0002-6926-5723

Yayımlanma Tarihi 30 Aralık 2020
Gönderilme Tarihi 11 Nisan 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 50 Sayı: 3

Kaynak Göster

APA Sarı, F. M., Öztaş, E., Özden, S., Özhan, G. (2020). Liquid chromatographic determination of citrinin residues in various meat products: A pioneer survey in Turkey. İstanbul Journal of Pharmacy, 50(3), 195-201.
AMA Sarı FM, Öztaş E, Özden S, Özhan G. Liquid chromatographic determination of citrinin residues in various meat products: A pioneer survey in Turkey. iujp. Aralık 2020;50(3):195-201.
Chicago Sarı, Fatih Mehmet, Ezgi Öztaş, Sibel Özden, ve Gül Özhan. “Liquid Chromatographic Determination of Citrinin Residues in Various Meat Products: A Pioneer Survey in Turkey”. İstanbul Journal of Pharmacy 50, sy. 3 (Aralık 2020): 195-201.
EndNote Sarı FM, Öztaş E, Özden S, Özhan G (01 Aralık 2020) Liquid chromatographic determination of citrinin residues in various meat products: A pioneer survey in Turkey. İstanbul Journal of Pharmacy 50 3 195–201.
IEEE F. M. Sarı, E. Öztaş, S. Özden, ve G. Özhan, “Liquid chromatographic determination of citrinin residues in various meat products: A pioneer survey in Turkey”, iujp, c. 50, sy. 3, ss. 195–201, 2020.
ISNAD Sarı, Fatih Mehmet vd. “Liquid Chromatographic Determination of Citrinin Residues in Various Meat Products: A Pioneer Survey in Turkey”. İstanbul Journal of Pharmacy 50/3 (Aralık 2020), 195-201.
JAMA Sarı FM, Öztaş E, Özden S, Özhan G. Liquid chromatographic determination of citrinin residues in various meat products: A pioneer survey in Turkey. iujp. 2020;50:195–201.
MLA Sarı, Fatih Mehmet vd. “Liquid Chromatographic Determination of Citrinin Residues in Various Meat Products: A Pioneer Survey in Turkey”. İstanbul Journal of Pharmacy, c. 50, sy. 3, 2020, ss. 195-01.
Vancouver Sarı FM, Öztaş E, Özden S, Özhan G. Liquid chromatographic determination of citrinin residues in various meat products: A pioneer survey in Turkey. iujp. 2020;50(3):195-201.