Improved Extraction of the Neurotoxin of Stenocarpella maydis Using an Artificial Rumen
Leendert Dekker Snyman

TL;DR
This study shows that using an artificial rumen improves the extraction of a neurotoxin from Stenocarpella maydis, making it more effective at causing neurological effects in animals.
Contribution
The study introduces an artificial rumen as a more efficient extraction method for diplonine compared to traditional methanol extraction.
Findings
Artificial rumen extraction required only 1/10th of the S. maydis culture to induce neurological disorders in guinea pigs.
The artificial rumen extract induced neurological disorders in sheep similar to those seen in diplodiosis.
The method may be superior to methanol extraction for isolating diplonine.
Abstract
Due to the low yield of diplonine obtained when isolated from Stenocarpella maydis (Berk.) Sutton (formerly Diplodia maydis (Berk.) Sacc., the present research was aimed to find a more efficient method of preparing diplonine to confirm its neurological effect on the target animal. This study demonstrated that using an artificial rumen for extraction instead of methanol may significantly improve the extraction of the neurotoxin. With this method, only 1/10th of an S. maydis culture was required to induce neurological disorders in guinea pigs than was needed to induce the neurological disorders with a methanol extract from the same culture, indicating a possible superiority of an artificial rumen extract compared to extraction with methanol. A comparable dosage of the artificial rumen extract also induced neurological disorders resembling diplodiosis in sheep.
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Taxonomy
TopicsCalcium Carbonate Crystallization and Inhibition · Biodiesel Production and Applications
