Abstract
Tall fescue (Festuca arundinacea) and perennial ryegrass (Lolium perenne) are perennial cool-season grasses which are infected with the endophytic fungi, Neotyphodium coenophialum and N. lolii, respectively. These endophytes have been increasingly selected for, as they confer benefits such as pest resistance and drought tolerance to the plant. However, livestock grazing endophyte-infected (E+) grasses are negatively impacted by fungal ergot and lolitrem alkaloids, which are responsible for a variety of mammalian diseases including fescue toxicosis (summer syndrome, fescue foot and fat necrosis) and ryegrass staggers. Most likely, not all of the ergot alkaloids involved in fescue toxicosis have been identified to date. During sample processing for the diagnostic analysis of the endophyte toxin ergovaline, other unidentified peaks occasionally elute that appear to coincide with clinical disease. Analysis of unidentified chromatographic peaks was performed on feed samples by LCMS/ MS to determine their chemical structures and identities. Ergotamine, ergovaline, ergocornine, ergonovine, ergocryptine, ergocrystine and lysergol appeared in various samples and matched controls. Newly identified compounds included ergosine, ergostine and ergoptine. In addition, several samples showed one or more of fourteen new ergots ranging in size from 381-611 mw, with key mass spectral characteristics of ergot alkaloidsspecifically, m/z 223 and 208 corresponding to the ergoline ring system and its demethylated variant, respectively. Once ingested, ergot alkaloids are thought to be metabolised in the rumen and/ or liver of livestock species. Ruminal metabolism of ergovaline was studied in sheep offered Neotyphodium coenophialuminfected tall fescue straw at two ergovaline levels (
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