RT Journal Article SR Electronic T1 Development of an HPTLC method for determination of hypoglycin A in aqueous extracts of seedlings and samaras of Acer species JF bioRxiv FD Cold Spring Harbor Laboratory SP 148262 DO 10.1101/148262 A1 J.A. Habyarimana A1 E. Baise A1 C. Douny A1 M. Weber A1 F. Boemer A1 P. De Tullio A1 T. Franck A1 C. Marcillaud-Pitel A1 M. Frederich A1 A. Mouithys-Mickalad A1 E. Richard A1 M.-L. Scippo A1 D. Votion A1 P. Gustin YR 2017 UL http://biorxiv.org/content/early/2017/06/09/148262.abstract AB Hypoglycin A (HGA) is a toxin contained in seeds of the sycamore maple tree (Acer pseudoplatanus). Ingestion of this amino acid causes equine atypical myopathy (AM) in Europe. Another variety, A. negundo, is claimed to be present where AM cases were reported in the US. For unknown reasons, occurrence of this disease has increased. It is important to define environmental key factors that may influence toxicity of samaras from Acer species. In addition, the content of HGA in seedlings needs to be determined since AM outbreaks, during autumn period when the seeds fall but also during spring when seeds are germinating. The present study aims to validate a reliable method using high performance thin layer chromatography for determination and comparison of HGA in samaras and seedlings.The working range of the method was between 20 μg HGA to 408 μg HGA per ml water, corresponding to 12 - 244 mg/kg fresh weight or 40 - 816 mg/kg dry weight, taking into account of an arbitrary average dry matter content of 30%. Instrumental limit of detection and limit of quantification were of 10 μg HGA/ml and 20 μg HGA/ml water, respectively. Instrumental precision was 4% (RSD on 20 repeated measurements) while instrumental accuracy ranged between 86% and 121% of expected value. The HGA recovery of the analytical method estimated from spiked samaras and seedlings samples ranged between 63 and 103%. The method was applied to 9 samples of samaras from Acer pseudoplatanus, A. platanoides and A. campestre and 5 seedlings samples from A. pseudoplatanus. The results confirm detection of HGA in samaras from A. pseudoplatanus and the absence of detection in samaras of other tested species. They also suggest that detected levels of HGA are highly variable. This confirmed the suitability of the method for HGA detection in samaras or seedling.