The CREB-responsive microRNA miR-132 has been shown to regulate s

The CREB-responsive microRNA miR-132 has been shown to regulate synaptic transmission KU-60019 and we set out to investigate a role for this microRNA in recognition memory and its underlying plasticity mechanisms. To this end we mediated the specific overexpression of miR-132 selectively in the rat perirhinal cortex and demonstrated impairment in short-term recognition memory. This functional deficit was associated with a reduction in both long-term depression and long-term

potentiation. These results confirm that microRNAs are key coordinators of the intracellular pathways that mediate experience-dependent changes in the brain. In addition, these results demonstrate a role for miR-132 in the neuronal mechanisms underlying the formation of short-term recognition memory. “
“Olfactory sensory neurons (OSNs) which express distinct odorant receptor (OR) genes are spatially arranged within the mouse olfactory epithelium. Towards an understanding of the mechanisms which determine these patterns, representative OR genes which are typically expressed in the unique central patch of the epithelium were investigated. Inside

the patch, numerous OSNs which initially selected a representative Bcl-2 inhibitor gene from this OR group finally expressed another gene from the group, indicating that OSNs inside the patch ‘switch’ between these genes. If an OSN successively chose genes from the same OR gene cluster, these originated from the same parental chromosome. A deletion of the olfactory cyclic nucleotide-gated ion channel altered the distribution pattern of distinct OSN populations; they were no longer located exclusively inside the patch. Together, the results

indicate that OSNs inside Reverse transcriptase the patch initially sample several OR genes for expression; for their correct patterning in the OE, odor-induced activity appears to play a critical role. “
“Staphylococcus lugdunensis is a human skin commensal organism, but it is considered as a virulent Staphylococcus species. In a previous study, we described the first S. lugdunensis autolysin, AtlL. This enzyme displays two enzymatic domains and generates two peptidoglycan hydrolases, an N-acetylmuramoyl-l-alanine amidase and an N-acetylglucosaminidase. In this study, to further investigate the functions of this autolysin, a ΔatlL mutant was constructed. The microscopic examination of the mutant showed cell aggregates and revealed a rough outer cell surface demonstrating, respectively, the roles of AtlL in cell separation and peptidoglycan turnover. This ΔatlL mutant exhibited a lower susceptibility to Triton X-100-induced autolysis assays and appears to be more resistant to cell wall antibiotic-induced lysis and death compared with its parental strain. The atlL mutation affected the biofilm formation capacity of S. lugdunensis. Furthermore, the ΔatlL mutant showed trends toward reduced virulence using the Caenorhabditis elegans model.

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