Development of magnetic molecularly imprinted polymers for selective extraction: determination of citrinin in rice samples by liquid chromatography with UV diode array detection
暂无分享,去创建一个
Javier L. Urraca | María Cruz Moreno-Bondi | Ana M. García-Campaña | M. Moreno-Bondi | J. Urraca | José F. Huertas-Pérez | J. Gracia-Mora | J. Huertas-Pérez | Guillermo Aragoneses Cazorla | Jesus Gracia-Mora | A. García-Campaña
[1] Dan Zhu,et al. Preparation of an immunoaffinity column for the clean-up of fermented food samples contaminated with citrinin , 2013, Food additives & contaminants. Part A, Chemistry, analysis, control, exposure & risk assessment.
[2] D. Shih,et al. Incidence of citrinin in red yeast rice and various commercial Monascus products in Taiwan from 2009 to 2012 , 2014 .
[3] L. Fielding. Determination of Association Constants (Ka) from Solution NMR Data , 2000 .
[4] M. Hennion,et al. Retention mechanism of analytes in the solid-phase extraction process using molecularly imprinted polymers. Application to the extraction of triazines from complex matrices. , 2004, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.
[5] L. Gámiz-Gracia,et al. Simple methodology for the determination of mycotoxins in pseudocereals, spelt and rice , 2014 .
[6] Meihua Yang,et al. Natural occurrence of citrinin in widely consumed traditional Chinese food red yeast rice, medicinal plants and their related products , 2012 .
[7] S. Saeger,et al. Scientific Opinion on the risks for public and animal health related to the presence of citrinin in food and feed , 2012 .
[8] Koji Sode,et al. Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: the control of particle size suitable for different analytical applications. , 2007, Analytica chimica acta.
[9] L. Gámiz-Gracia,et al. High-throughput determination of citrinin in rice by ultra-high-performance liquid chromatography and fluorescence detection (UHPLC-FL) , 2015, Food additives & contaminants. Part A, Chemistry, analysis, control, exposure & risk assessment.
[10] K. Reijula,et al. Detection of aflatoxins (G(1-2), B(1-2)), sterigmatocystin, citrinine and ochratoxin A in samples contaminated by microbes. , 2001, The Analyst.
[11] S. Piletsky,et al. Analytical methods for determination of mycotoxins: a review. , 2009, Analytica chimica acta.
[12] Yong‐Ill Lee,et al. Rapid and selective extraction of multiple macrolide antibiotics in foodstuff samples based on magnetic molecularly imprinted polymers. , 2015, Talanta.
[13] U. Meister. New method of citrinin determination by HPLC after polyamide column clean-up , 2004 .
[14] Jens Christian Frisvad,et al. Penicillium subgenus Penicillium - A guide to identification of food and air-borne terverticillate Penicillia and their mycotoxins , 2004 .
[15] J. Frisvad,et al. Penicillium subgenus Penicillium: new taxonomic schemes and mycotoxins and other extrolites , 2004 .
[16] A. G. Frenich,et al. Multi-mycotoxin analysis in eggs using a QuEChERS-based extraction procedure and ultra-high-pressure liquid chromatography coupled to triple quadrupole mass spectrometry. , 2011, Journal of chromatography. A.
[17] M. Moreno-Bondi,et al. Molecularly imprinted polymers with a streamlined mimic for zearalenone analysis. , 2006, Journal of chromatography. A.
[18] F. Qin,et al. Citrinin selective molecularly imprinted polymers for SPE. , 2010, Journal of separation science.
[19] D. Nickle,et al. Aspergillus alabamensis, a New Clinically Relevant Species in the Section Terrei , 2009, Eukaryotic Cell.
[20] K. Olsen,et al. Choosing sample volume to achieve maximum detection sensitivity and resolution with high-performance liquid chromatography columns of 1.0, 2.1 and 4.6 mm I.D. , 1997, Journal of chromatography. A.
[21] Su-qing Zhao,et al. Preparation of artificial antigen and egg yolk-derived immunoglobulin (IgY) of citrinin for enzyme-linked immunosorbent assay. , 2009, Biomedical and environmental sciences : BES.
[22] Natalia Arroyo-Manzanares,et al. A new approach in sample treatment combined with UHPLC-MS/MS for the determination of multiclass mycotoxins in edible nuts and seeds. , 2013, Talanta.
[23] W. Stenzel,et al. Development of a method for the determination of citrinin in barley, rye and wheat by solid phase extraction on aminopropyl columns and HPLC-FLD , 2007, Mycotoxin Research.
[24] Yingchao Yu,et al. Preparation of a magnetic molecularly imprinted polymer for selective recognition of rhodamine B , 2014 .
[25] I. K. Cigić,et al. An Overview of Conventional and Emerging Analytical Methods for the Determination of Mycotoxins , 2009, International journal of molecular sciences.
[26] T. Goto,et al. Development and single laboratory validation of a method for citrinin , 2010 .
[27] Börje Sellergren,et al. Urea host monomers for stoichiometric molecular imprinting of oxyanions. , 2005, The Journal of organic chemistry.
[28] Baojun Xu,et al. Review on the qualitative and quantitative analysis of the mycotoxin citrinin , 2006 .
[29] Yanghao Guo,et al. Preparation and Characterization of The High Specificity Monoclonal Antibodies Against Citrinin: Preparation and Characterization of The High Specificity Monoclonal Antibodies Against Citrinin , 2011 .
[30] Hong Yang,et al. Core-shell magnetic molecularly imprinted polymers as sorbent for sulfonylurea herbicide residues. , 2015, Journal of agricultural and food chemistry.
[31] Börje Sellergren,et al. A stoichiometric molecularly imprinted polymer for the class-selective recognition of antibiotics in aqueous media. , 2006, Angewandte Chemie.
[32] S. Udagawa,et al. Monascus r, a new species isolated from mouldy feeds. , 1998 .
[33] M. Peraica,et al. Toxicological Properties of Citrinin , 2009, Arhiv za higijenu rada i toksikologiju.
[34] R. Howie,et al. Selected Powder Diffraction Data for Minerals. Data Book , 1975, Mineralogical Magazine.
[35] Bifeng Yuan,et al. Synthesis and applications of functionalized magnetic materials in sample preparation , 2013 .