Necropsy findings included moderate to marked atrophic enteritis associated with numerous intraepithelial and fewer extracellular coccidial life stages. Sporulated oocysts isolated from feces were consistent with Eimeria furonis. A PCR assay was performed on formalin-fixed, paraffin-embedded sections of intestine for the gene encoding the

small subunit of rRNA yielded products with sequences identical to those described for E furonis.

Treatment and Outcome-Supportive MAPK inhibitor care and treatment with sulfadimethoxine over the course of these outbreaks was palliative, but long-term treatment was required and failed to completely eradicate infection as identified by the subsequent finding of oocysts in fecal samples.

Clinical Relevance-Enteric coccidiosis due to infection with E furonis has typically been reported to be subclinical rather than to cause severe gastrointestinal disease in ferrets. This report indicated that infection with E furonis may have contributed to severe enteric disease with high morbidity and mortality rates in 3 densely populated, dynamic HDAC inhibitors cancer groups of ferrets. Furthermore, long-term treatment with anti-coccidials may be required in outbreak situations, but may be ineffectual in completely

eradicating infection. (J Am Vet Med Assoc 2011;239:1584-1588)”
“The physiological and molecular mechanisms associated with acclimation and survival have been examined in four Ribes genotypes displaying differential cryotolerance. Changes in DNA methylation, nucleic acid and nucleoside composition were determined during acclimation and recovery of in vitro shoot-meristems from cryopreservation. DNA methylation was induced in the tolerant genotype, while demethylation was evident in sensitive genotypes. This response initially occurred during sucrose simulated acclimation, with progressive changes as shoots recovered from successive stages of the encapsulation-dehydration protocol. These methylation patterns existed in the initial vegetative cycle but regressed to control values following subculture, indicating

the changes in DNA methylation to be a reversible epigenetic mechanism. RNA levels indicating transcriptional activity during the acclimation of nodal tissue are inversely linked to methylation changes, where DZNeP inhibitor activity appears to be up-regulated in the cryosensitive genotypes. Conversely, cryopreserved shoots show increased levels of both RNA and DNA methylation in the cryotolerant genotypes. Other nucleosides show post-transcriptional activity corresponds with tolerance during acclimation and cryopreservation. These observations connect physiological attributes to differential molecular changes in Ribes, the implications of which are discussed in relation to cryopreservation-induced apoptosis and genetic stability. (C) 2008 Elsevier Masson SAS. All rights reserved.