A Collaborative Children\u27s Literature Book Club for Teacher Candidates

This paper highlights the two-year journey of an extra-curricular book club for teacher candidates as they explored children’s literature in order to further their teaching practice. Initial themes were confirmed and refined as the journey of the book club concluded after two years. A sociocultural theoretical framework guided this work and considered Cambourne’s (1988) conditions of learning, specifically immersion in texts, as well as the important role of social contexts in developing shared text meanings. A qualitative methodology, drawing on participatory action research (Kemmis & McTaggart, 2005) and taking a case study approach to sharing the case of this collaborative children’s literature book club, was used

Synaptic mechanisms underlying modulation of locomotor-related motoneuron output by premotor cholinergic interneurons

F Nascimento was supported by The Alfred Dunhill Links Foundation. G B Miles and M J Broadhead received support from Biotechnology and Biological Sciences Research Council Grant BB/M021793/1. L Zagoraiou and E Tsape were supported by Fondation Santé.Spinal motor networks are formed by diverse populations of interneurons that set the strength and rhythmicity of behaviors such as locomotion. A small cluster of cholinergic interneurons, expressing the transcription factor Pitx2, modulates the intensity of muscle activation via ‘C-bouton’ inputs to motoneurons. However, the synaptic mechanisms underlying this neuromodulation remain unclear. Here, we confirm in mice that Pitx2+ interneurons are active during fictive locomotion and that their chemogenetic inhibition reduces the amplitude of motor output. Furthermore, after genetic ablation of cholinergic Pitx2+ interneurons, M2 receptor-dependent regulation of the intensity of locomotor output is lost. Conversely, chemogenetic stimulation of Pitx2+ interneurons leads to activation of M2 receptors on motoneurons, regulation of Kv2.1 channels and greater motoneuron output due to an increase in the inter-spike afterhyperpolarization and a reduction in spike half-width. Our findings elucidate synaptic mechanisms by which cholinergic spinal interneurons modulate the final common pathway for motor output.Publisher PDFPeer reviewe

Getting Down to Specifics: Profiling Gene Expression and Protein-DNA Interactions in a Cell Type-Specific Manner.

The majority of multicellular organisms are comprised of an extraordinary range of cell types, with different properties and gene expression profiles. Understanding what makes each cell type unique, and how their individual characteristics are attributed, are key questions for both developmental and neurobiologists alike. The brain is an excellent example of the cellular diversity expressed in the majority of eukaryotes. The mouse brain comprises of approximately 75 million neurons varying in morphology, electrophysiology, and preferences for synaptic partners. A powerful process in beginning to pick apart the mechanisms that specify individual characteristics of the cell, as well as their fate, is to profile gene expression patterns, chromatin states, and transcriptional networks in a cell type-specific manner, i.e. only profiling the cells of interest in a particular tissue. Depending on the organism, the questions being investigated, and the material available, certain cell type-specific profiling methods are more suitable than others. This chapter reviews the approaches presently available for selecting and isolating specific cell types and evaluates their key features