[Di Tuoro D, Portaccio M, Lepore M, Arduini F, Moscone D, Bencivenga U, Mita DG. (2011). An acetylcholinesterase biosensor for determination of low concentrations of paraoxon and dichlorvos. N Biotechnol 29: 132-138.]Search in Google Scholar
[Du D, Wang M, Cai J, Zhang A. (2010). Sensitive acetylcholinesterase biosensor based on assembly of β-cyclodextrins onto multiwall carbon nanotubes for detection of organophosphates pesticide. Sens Actuat B Chem 146: 337-341.]Search in Google Scholar
[Ellman GL, Courtney DK, Andreas V, Featherstone RM. (1961). A new and rapid colorimetric determination of acetylcholinesterase activity. Biochem Pharm 7: 88-95.]Search in Google Scholar
[Haigh JR, Lefkowitz LJ, Capacio BP, Gordon RK. (2008). Advantage of the WRAIR whole blood cholinesterase assay: comparative analysis to the micro- Ellman, Test-mate ChE, and Michel (DeltapH) assays. Chem Biol Interact 175: 417-420.]Search in Google Scholar
[Korpela M, Tahti H. (1988). Human and rat erythrocyte membranes as a model for studying the eff ects of organic solvents on membrane-bound acetylcholinesterase in vitro. Toxicol In Vitro 2: 135-139. ]Search in Google Scholar
[Marinov I, Gabrovska K, Velichkova J, Godjevargova T. (2009). Immobilization of acetylcholinesterase on nanostructure polyacrylonitrile membranes. Int J Biol Macromol 44: 338-345.]Search in Google Scholar
[Marinov I, Ivanov Y, Gabrovska K, Godjevargova T. (2010). Amperometric acetylthiocholine sensor based on acetylcholinesterase immobilized on nanostructured polymer membrane containing gold nanoparticles. J Mol Cat B Enzym 22: 66-74.]Search in Google Scholar
[Miao Y, He N, Zhu JJ. (2010). History and new developments of assays for cholinesterase activity and inhibition. Chem Rev 110: 5216-5234.]Search in Google Scholar
[Mionetto N, Marty JL, Karube I. (1994). Acetylcholinesterase in organic solvents for the detection of pesticides: biosensor application. Biosens Bioelectron 9: 463-470.]Search in Google Scholar
[Pohanka M. (2011). Cholinesterases, a target of pharmacology and toxicology. Biomed Pap Olomouc 155: 219-230.]Search in Google Scholar
[Pohanka M. (2012). Acetylcholinesterase based dipsticks with indoxylacetate as a substrate for assay of organophosphates and carbamates. Anal Lett 45: 367-374.]Search in Google Scholar
[Pohanka M. (2012). Acetylcholinesterase inhibitors; a patent review (2008-present). Expert Opin Ther Pats 22: 871-886.]Search in Google Scholar
[Pohanka M. (2013). Spectrophotometric assay of afl atoxin B1 using acetylcholinesterase immobilized on standard microplates. Anal Lett 46: 1306-1315.]Search in Google Scholar
[Pohanka M, Drtinova L. (2013). Spectrophotometric methods based on 2,6-dichloroindophenol acetate and indoxylacetate for butyrylcholinesterase activity assay in plasma. Talanta 106: 281-285.]Search in Google Scholar
[Turdean LG, Turdean MS. (2008). Synergetic eff ect of organic solvents and paraoxon on the immobilized acetylcholinesterase. Pest Biochem Physiol 90: 73-81.]Search in Google Scholar
[Tusarova I, Halamek E, Kobliha Z. (1999). Study on reactivation of enzymeinhibitor complexes by oximes using acetylcholine esterase inhibited by organophosphate chemical warfare agents. Enz Microbial Technol 25: 400-403. ]Search in Google Scholar
