| Literature DB >> 33291632 |
Birgit Keller1, Henrike Kuder1, Christian Visscher1, Ute Siesenop2, Josef Kamphues1.
Abstract
Liquid feed is susceptible to microbiological growth. Yeasts are said to cause sudden death in swine due to intestinal gas formation. As not all animals given high yeast content feed fall ill, growth and gas formation potential at body temperature were investigated as possible causally required properties. The best identification method for these environmental yeasts should be tested beforehand. Yeasts derived from liquid diets without (LD - S) and liquid diets with maize silage (LD + S) were examined biochemically (ID32C-test) and with MALDI-TOF with direct smear (DS) and an extraction method (EX). Growth temperature and gas-forming potential were measured. With MALDI-EX, most yeast isolates were identified: Candida krusei most often in LD - S, and C. lambica most often in LD + S, significantly more than in LD - S. Larger colonies, 58.75% of all yeast isolates, were formed at 25 °C rather than at 37 °C; 17.5% of all isolates did not grow at 37 °C at all. Most C. krusei isolates formed high gas amounts within 24 h, whereas none of the C. lambica, C. holmii and most other isolates did. The gas pressure formed by yeast isolates varied more than tenfold. Only a minority of the yeasts were able to produce gas at temperatures common in the pig gut.Entities:
Keywords: Candida krusei; Candida lambica; MALDI-TOF; biochemical identification; growth temperature Ancom Gas Production System; liquid swine diets; yeasts
Year: 2020 PMID: 33291632 PMCID: PMC7761980 DOI: 10.3390/jof6040337
Source DB: PubMed Journal: J Fungi (Basel) ISSN: 2309-608X