Western blot analyses further showed that cAkt3 promoted significantly higher levels of phosphorylated Akt and phosphorylated mTOR than cAkt1. The mTOR inhibitor rapamycin blocked the protective effects of both cAkt1 and cAkt3. In conclusion, Akt isoforms are differentially regulated after stroke and Akt3 offers stronger protection than cAkt1 by maintaining Akt levels and promoting mTOR activity.”
“Symbioses between cool season grasses and fungi of the family Clavicipitaceae Go6983 are an integral component of both natural and agricultural ecosystems.
An excellent experimental model is the association between the biotrophic fungus Epichloe festucae and Lolium perenne (perennial ryegrass). The fungal partner produces a suite of secondary metabolites that protect the host from various biotic and abiotic stresses. The plant host provides a source of nutrients and a mechanism of dissemination via seed transmission. Crucial mechanisms that maintain a stable mutualistic Veliparib ic50 association include signaling through the stress activated MAP kinase pathway and production of reactive oxygen species by the fungal NADPH oxidase
(Nox) complex. Disruption of components of the Nox complex (NoxA, NoxR and RacA), or the stress-activated MAP kinase (SakA), leads to a breakdown in this finely balanced association, resulting in pathogenic infection instead of mutualism. Hosts infected with fungi lacking a functional Nox complex, or the stress-activated MAP kinase, display a stunted phenotype and undergo premature senescence, this website while the fungus switches from restricted to proliferative growth. To gain insight into the mechanisms that underlie these physiological changes, high throughput mRNA sequencing has been used to analyze the transcriptomes of both host and symbiont in wild-type and a mutant association. In the Delta sakA mutant association, a dramatic up-regulation of fungal hydrolases and transporters was observed, changes consistent
with a switch from restricted symbiotic to proliferative pathogenic growth. Analysis of the plant transcriptome revealed dramatic changes in expression of host genes involved in pathogen defense, transposon activation and hormone biosynthesis and response. This review highlights how finely tuned grass-endophyte associations are, and how interfering with the signaling pathways involved in maintenance of these associations can trigger a change from mutualistic to pathogenic interaction. (C) 2010 Elsevier Ireland Ltd. All rights reserved.”
“An increasing number of Australian slaughter plants were found not to meet the Meat Standards Australia (MSA) pH-temperature window, due to high rigor temperatures, particularly at plants where grain-fed animals were slaughtered. Hence, the red meat processing industry in Australia supported a research program focused on resolving this issue, as carcasses that do not meet the MSA pH-temperature window are excluded from MSA grading.