The present study examines the role of a single bout of shallow t

The present study examines the role of a single bout of shallow torpor in the process of

memory consolidation in mice. Adult female C57B1/6NHSD mice were trained on the Morris Water Maze (MWM) task. Immediately following acquisition, the mice were exposed to one of four experimental manipulations for 24 h: fasted at an ambient temperature of 19 degrees C, fasted at 29 degrees C, allowed free access to food at 19 degrees C, or allowed free access to food at 29 degrees C. Mice fasted at 19 degrees C entered a bout of torpor as assessed by core body temperature CT99021 while none of the mice in the other conditions did so. Spatial biases were then assessed with a probe trial in the MWM. During the probe trial, mice that had entered torpor and mice that were fed at 29 degrees C spent twice as much time in the prior target platform location than mice that were fed at 19 degrees C and those that were fasted at 29 degrees C. These

findings demonstrate that, while food restriction or cool ambient temperature independently disrupt memory processes, together they cause physiological changes including the induction of a state of torpor that result in functional preservation of the memory process. (C) 2009 Elsevier Inc. All rights reserved.”
“Background: High-throughput genotyping and phenotyping projects of large epidemiological Danusertib in vivo study populations require sophisticated laboratory information management systems. Most epidemiological studies include subject-related personal information, which needs to be handled with care by following data privacy protection

guidelines. In addition, genotyping core facilities handling cooperative projects require a straightforward solution to monitor the status and financial resources of the different projects.\n\nDescription: We developed a database system for an efficient combination and management of phenotypes and genotypes (eCOMPAGT) deriving from genetic epidemiological studies. eCOMPAGT securely buy LY2090314 stores and manages genotype and phenotype data and enables different user modes with different rights. Special attention was drawn on the import of data deriving from TaqMan and SNPlex genotyping assays. However, the database solution is adjustable to other genotyping systems by programming additional interfaces. Further important features are the scalability of the database and an export interface to statistical software.\n\nConclusion: eCOMPAGT can store, administer and connect phenotype data with all kinds of genotype data and is available as a downloadable version at http://dbis-informatik.uibk.ac.at/ecompagt.”
“Laparoscopic adjustable gastric banding (LAGB) has been popularized as an effective, safe, minimally invasive surgical technique for the treatment of morbid obesity. We performed a pilot study to evaluate gastric emptying of semisolid meals and antral motility following LAGB.

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