Pohanka_2010_Protein.Pept.Lett_17_340

Reference

Title : Evaluation of aflatoxin B1--acetylcholinesterase dissociation kinetic using the amperometric biosensor technology: prospect for toxicity mechanism - Pohanka_2010_Protein.Pept.Lett_17_340
Author(s) : Pohanka M , Musilek K , Kuca K
Ref : Protein Pept Lett , 17 :340 , 2010
Abstract :

Aflatoxins are group of secondary metabolites from moulds. The main toxic effect of aflatoxins on body is based on metabolic activation on cytochrome P450 system. Recently, some studies appointed at anticholinergic properties of aflatoxins and inhibition of acetylcholinesterases (AChE) was described. Inhibition is reversible; however, some questions arose. Is the interaction firmly enough to prevent distribution of aflatoxins in body? Could be AChE considered as a scavenger of aflatoxins? Amperometric biosensor with immobilized acetylcholinesterase was used for evaluation of aflatoxin B1 (AFB1) - AChE complex spontaneous dissociation, where AFB1 acts as an inhibitor. Displacement of solution with substrate and AFB1 by the intact one enabled estimation of dissociation kinetics. The dissociation rate constant k(dis) was found 0.0047 +/- 0.0005 s(-1). The half time (t(1/2)) of complex dissociation was 146 s. The achieved data appoint at fact that AChE could allow to distribute aflatoxins in body instead acting as a scavenger. Analytical impact of study is discussed, too.

PubMedSearch : Pohanka_2010_Protein.Pept.Lett_17_340
PubMedID: 19508188

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Citations formats

Pohanka M, Musilek K, Kuca K (2010)
Evaluation of aflatoxin B1--acetylcholinesterase dissociation kinetic using the amperometric biosensor technology: prospect for toxicity mechanism
Protein Pept Lett 17 :340

Pohanka M, Musilek K, Kuca K (2010)
Protein Pept Lett 17 :340