Project description:Purpose: Colony-stimulating factor 1 receptor (CSF1R), a tyrosine kinase receptor, is a key regulator in the proliferation, differentiation, migration and colonization of macrophage lineage cells. Under pathological conditions, CSF1R was not only involved in the pathogenesis of immune disorders and hematopoietic diseases, but also closely related to tissue damage and tumor growth and metastasis. Therefore, comprehensive understanding of CSF1R function is of great significance. Methods: In this study, a csf1ra−/− zebrafish mutant line was generated using clustered regularly interspaced short palindromic repeats (CRISPR)-associated 9 (CRISPR/Cas9) technology. Results:The csf1ra−/− larvae were lack of the yellow cast on the head and over the flank, while the adult mutants had poorly formed stripes. The RNA-sequence analysis revealed that genes related to bile acid secretion, fat digestion and absorption and pancreatic secretion were differentially expressed in csf1ra−/− mutants, leading to the fatty change in the liver. Besides, genes related to locomotion were also significantly changed with more active movement in csf1ra−/− larvae and adults. Conclusions: Overall, our data reveal that csf1ra participates the metabolic process and behavior. This study provides new insight into the functions of csf1ra gene during the development in zebrafish.

Project description:Genes relevant to manifestion of and variation in locomotor behavior might be differentially expressed in lines selected for divergent levels of locomotion. Experiment Overall Design: Drosophila adults were assessed for locomotor reactivity levels in a behavioral assay that quantified the locomotor response to a mechanical stimulus. A subset of the sampled population was selected as parents for the next generation, with High, Low, and Control selection groups maintained. This artificial selection was continued for 25 generations, with a variety of other behavioral and life history traits assessed for correlation with response to selection for locomotion. At generation 25, male and female flies were collected for RNA extraction and subsequent gene expression analysis.

Project description:Genes relevant to manifestion of and variation in locomotor behavior might be differentially expressed in lines selected for divergent levels of locomotion. Keywords: selection group

Project description:Primary objectives: To identify at least one alvimopan treatment regimen that improves spontaneous complete bowel movement (SCBM) frequency compared to placebo while maintaining an acceptable tolerability profile. Primary endpoints: Changes in weekly spontaneous complete bowel movement (SCBM) frequency during the 3-week Treatment Period.

Project description:Primary objectives: To identify at least one orally-dosed alvimopan treatment regimen that improves spontaneous bowel movement (SBM) frequency compared to placebo while maintaining an acceptable tolerability profile. Primary endpoints: The primary endpoint is the changes in weekly spontaneous bowel movement frequency during the first 3 weeks of the 6-week Treatment Period

Project description:We report that Gnmt-/- mice have abnormal behavior including spontaneous locomotion activity, PPI, TST and FST. Microarray analysis showed that genes expression profiles in male Gnmt -/- mice Keywords: Gnmt knockout

Project description:Motion sickness susceptible (MSS) and insusceptible (inMSS) rats were identified by quantifying rotation-induced MS symptoms: defecation and spontaneous locomotion activity. Microarray analysis was used to screen differentially expressed genes in the caudal vestibular nucleus (CVN) after rotation.

Project description:Phenotypic and Genetic Complexity in Pediatric Movement Disorders

Project description:By high-throughput RNA-seq of heavy polysomal fractions, we report that rpS6 knockin mice, in which the 5 phosphorylatable serines have been replaced by alanines, show an alteration in the translation, but not transcription, of a subset of mRNAs in the nucleus accumbens (NAc) but not in the dorsal striatum (DStr). Gene Ontology analysis revealed that multiple dysregulated mRNAs are related to the mitochondria. Moreover, we described that rpS6 knockin mice also display an alteration in novelty-induced locomotion and synaptic plasticity.

Project description:Cocaine-mediated repression of the histone methyltransferase (HMT) G9a has recently been implicated in transcriptional, morphological, and behavioral responses to chronic cocaine administration. Here, using a ribosomal affinity purification approach, we find that G9a repression by cocaine occurs in both Drd1 (striatonigral)- and Drd2 (striatopallidal)-expressing medium spiny neurons (MSNs). Conditional knockout and overexpression of G9a within these distinct cell types, however, reveals divergent behavioral phenotypes in response to repeated cocaine treatment. Our studies further indicate that such developmental deletion of G9a selectively in Drd2 neurons results in the unsilencing of transcriptional programs normally specific to striatonigral neurons, and the acquisition of Drd1-associated projection and electrophysiological properties. This partial striatopallidal to striatonigral ‘switching’ phenotype in mice indicates a novel role for G9a in contributing to neuronal subtype identity, and suggests a critical function for cell-type specific histone methylation patterns in the regulation of behavioral responses to environmental stimuli. Polyribosome associated mRNAs from 2-5 month old, age and sex matched Drd1-Cre; Drd1-TRAP; G9afl/fl and Drd1-TRAP; G9afl/fl, Drd2-Cre; Drd2-TRAP; G9afl/fl and Drd2-TRAP; G9afl/fl mice (n = 2-4 mice/genotype/drug treatment, 2 hours after the last of eight repeated cocaine injections of 20 mg/kg/day) were obtained as previously described. EGFP labeled ribosomes and associated mRNAs were immunoprecipitated using a mix of two monoclonal anti-GFP antibodies (50 μg of clones #19C8 and #19F7 for each IP, available at Sloan-Kettering Monoclonal Antibody Facility). Purified mRNA was amplified and processed for microarray and qPCR analysis using the Affymetrix two-cycle cDNA Synthesis kit (Affymetrix) as previously described. Affymetrix Mouse Genome 430 2.0 arrays were used in all experiments. Information regarding the array design and features can be found at www.affymetrix.com. Mouse Genome 430 2.0 arrays were scanned using the GeneChip Scanner 3000 (Affymetrix) and globally scaled to 150 using the Affymetrix GeneChip Operating Software (GCOS v1.4).