276 research outputs found
An Appraisal of the CLASS Instrument as an Observational Measurement Tool for Evaluation of Student and Teacher Interactions in Western Australian Classrooms
The National Quality Framework is used across Australia to drive quality improvement in early childhood settings. Unique to Western Australia, the National Quality Standard is also used in schools to improve quality in classrooms up to Year two (seven to eight years). However, the literature suggests the National Quality Standard is too broad with an emphasis on quantifiable program features (structural quality). As the Classroom Assessment Scoring System (CLASS™) instrument was designed to measure classroom interactions (process quality), the purpose of this current study was to examine its efficacy in Pre-primary (five-year-old) classrooms. A mixed-method research approach was employed to appraise the CLASS instrument as an observational measurement tool for evaluation of quality student and teacher interactions in schools. The quantitative methods involved a statistical analysis of the CLASS instrument ratings and observations and interviews provided a qualitative perspective. Study conclusions suggest that while CLASS offered useful descriptions of quality in Emotional Support and Classroom Organisation, the Instructional Support scores were not consistent with other indicators of quality, and this score was not representative of the instructional quality in some classrooms
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A catenin-dependent balance between N-cadherin and E-cadherin controls neuroectodermal cell fate choices
Characterizing endogenous protein expression, interaction and function, this study identifies in vivo interactions and competitive balance between N-cadherin and E-cadherin in developing avian (Gallus gallus) neural and neural crest cells. Numerous cadherin proteins, including neural cadherin (Ncad) and epithelial cadherin (Ecad), are expressed in the developing neural plate as well as in neural crest cells as they delaminate from the newly closed neural tube. To clarify independent or coordinate function during development, we examined their expression in the cranial region. The results revealed surprising overlap and distinct localization of Ecad and Ncad in the neural tube. Using a proximity ligation assay and co-immunoprecipitation, we found that Ncad and Ecad formed heterotypic complexes in the developing neural tube, and that modulation of Ncad levels led to reciprocal gain or reduction of Ecad protein, which then alters ectodermal cell fate. Here, we demonstrate that the balance of Ecad and Ncad is dependent upon the availability of β-catenin proteins, and that alteration of either classical cadherin modifies the proportions of the neural crest and neuroectodermal cells that are specified
Elk3 is essential for the progression from progenitor to definitive neural crest cell
Elk3/Net/Sap2 (here referred to as Elk3) is an Ets ternary complex transcriptional repressor known for its involvement in angiogenesis during embryonic development. Although Elk3 is expressed in various tissues, additional roles for the protein outside of vasculature development have yet to be reported. Here, we characterize the early spatiotemporal expression pattern of Elk3 in the avian embryo using whole mount in situ hybridization and quantitative RT-PCR and examine the effects of its loss of function on neural crest development. At early stages, Elk3 is expressed in the head folds, head mesenchyme, intersomitic vessels, and migratory cranial neural crest (NC) cells. Loss of the Elk3 protein results in the retention of Pax7+ precursors in the dorsal neural tube that fail to upregulate neural crest specifier genes, FoxD3, Sox10 and Snail2, resulting in embryos with severe migration defects. The results putatively place Elk3 downstream of neural plate border genes, but upstream of neural crest specifier genes in the neural crest gene regulatory network (NC-GRN), suggesting that it is critical for the progression from progenitor to definitive neural crest cell
A catenin-dependent balance between N-cadherin and E-cadherin controls neuroectodermal cell fate choices
Characterizing endogenous protein expression, interaction and function, this study identifies in vivo interactions and competitive balance between N-cadherin and E-cadherin in developing avian (Gallus gallus) neural and neural crest cells. Numerous cadherin proteins, including neural cadherin (Ncad) and epithelial cadherin (Ecad), are expressed in the developing neural plate as well as in neural crest cells as they delaminate from the newly closed neural tube. To clarify independent or coordinate function during development, we examined their expression in the cranial region. The results revealed surprising overlap and distinct localization of Ecad and Ncad in the neural tube. Using a proximity ligation assay and co-immunoprecipitation, we found that Ncad and Ecad formed heterotypic complexes in the developing neural tube, and that modulation of Ncad levels led to reciprocal gain or reduction of Ecad protein, which then alters ectodermal cell fate. Here, we demonstrate that the balance of Ecad and Ncad is dependent upon the availability of β-catenin proteins, and that alteration of either classical cadherin modifies the proportions of the neural crest and neuroectodermal cells that are specified
Sip1 mediates an E-cadherin-to-N-cadherin switch during cranial neural crest EMT
The neural crest, an embryonic stem cell population,
initially resides within the dorsal neural tube but subsequently
undergoes an epithelial-to-mesenchymal
transition (EMT) to commence migration. Although neural
crest and cancer EMTs are morphologically similar, little is
known regarding conservation of their underlying molecular
mechanisms. We report that Sip1, which is involved
in cancer EMT, plays a critical role in promoting the neural
crest cell transition to a mesenchymal state. Sip1 transcripts
are expressed in premigratory/migrating crest
cells. After Sip1 loss, the neural crest specifier gene FoxD3
was abnormally retained in the dorsal neuroepithelium,
whereas Sox10, which is normally required for emigration,
was diminished. Subsequently, clumps of adherent
neural crest cells remained adjacent to the neural tube and
aberrantly expressed E-cadherin while lacking N-cadherin.
These findings demonstrate two distinct phases of neural
crest EMT, detachment and mesenchymalization, with the
latter involving a novel requirement for Sip1 in regulation
of cadherin expression during completion of neural
crest EMT
Identification of genes expressed by immune cells of the colon that are regulated by colorectal cancer-associated variants.
A locus on human chromosome 11q23 tagged by marker rs3802842 was associated with colorectal cancer (CRC) in a genome-wide association study; this finding has been replicated in case-control studies worldwide. In order to identify biologic factors at this locus that are related to the etiopathology of CRC, we used microarray-based target selection methods, coupled to next-generation sequencing, to study 103 kb at the 11q23 locus. We genotyped 369 putative variants from 1,030 patients with CRC (cases) and 1,061 individuals without CRC (controls) from the Ontario Familial Colorectal Cancer Registry. Two previously uncharacterized genes, COLCA1 and COLCA2, were found to be co-regulated genes that are transcribed from opposite strands. Expression levels of COLCA1 and COLCA2 transcripts correlate with rs3802842 genotypes. In colon tissues, COLCA1 co-localizes with crystalloid granules of eosinophils and granular organelles of mast cells, neutrophils, macrophages, dendritic cells and differentiated myeloid-derived cell lines. COLCA2 is present in the cytoplasm of normal epithelial, immune and other cell lineages, as well as tumor cells. Tissue microarray analysis demonstrates the association of rs3802842 with lymphocyte density in the lamina propria (p = 0.014) and levels of COLCA1 in the lamina propria (p = 0.00016) and COLCA2 (tumor cells, p = 0.0041 and lamina propria, p = 6 Ă— 10(-5)). In conclusion, genetic, expression and immunohistochemical data implicate COLCA1 and COLCA2 in the pathogenesis of colon cancer. Histologic analyses indicate the involvement of immune pathways
A conserved regulatory program drives emergence of the lateral plate mesoderm
Cardiovascular cell lineages emerge with kidney, smooth muscle, and limb skeleton progenitors from the lateral plate mesoderm (LPM). How the LPM emerges during development and how it has evolved to form key lineages of the vertebrate body plan remain unknown. Here, we captured LPM formation by transgenic in toto imaging and lineage tracing using the first pan-LPM enhancer element from the zebrafish gene draculin (drl). drl LPM enhancer-based reporters are specifically active in LPM-corresponding territories of several chordate species, uncovering a universal LPM-specific gene program. Distinct from other mesoderm, we identified EomesA, FoxH1, and MixL1 with BMP/Nodal-controlled Smad activity as minimally required factors to drive drl-marked LPM formation. Altogether, our work provides a developmental and mechanistic framework for LPM emergence and the in vitro differentiation of cardiovascular cell types. Our findings suggest that the LPM may represent an ancient cell fate domain that predates ancestral vertebrates
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